Highlights of Atomic, Molecular & Optical Physics (DAMOP) Talks @ APS 2024 March Meeting
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TABLE 1: Highlights of Atomic, Molecular & Optical Physics (DAMOP) Talks @ APS 2024 March Meeting
| Paper | Author(s) | |
|---|---|---|
| 1 | Dark-cat Encoding in Atomic Levels – Part I Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In our work, we show how decoherence-free qubits can be efficiently encoded in the large spin hyperfine ground state of lanthanide atoms. |
Ming Yuan ; Andreas Kruckenhauser ; Han Zheng ; Pei Zeng ; Xuanhui Mao ; Rick Van Bijnen ; Qian Xu ; Mikhail Mamaev ; Peter Zoller ; Liang Jiang; |
| 2 | Dark-cat Encoding in Atomic Levels – Part II Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In our work, we show how decoherence-free qubits can be efficiently encoded in the large spin hyperfine ground state of lanthanide atoms. |
Xuanhui Mao ; Andreas Kruckenhauser ; Ming Yuan ; Han Zheng ; Pei Zeng ; Rick Van Bijnen ; Qian Xu ; Mikhail Mamaev ; Peter Zoller ; Liang Jiang; |
| 3 | A Flexible Toolbox for Hamiltonian Engineering with Driven Rydberg Atom Arrays Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this project, we introduce a technique for Hamiltonian engineering based on perturbing around time-reversed trajectories. |
Nishad Maskara ; Johannes Feldmeier ; Nazli Koyluoglu ; Marcin Kalinowski ; Mikhail Lukin; |
| 4 | Designing Time-optimal Dynamically Corrected Gates Robust to Finite Blockade and Laser Errors Using Geometric Space Curves Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, I will present a general technique to design control pulses that suppress noise due to the finite blockade strength. |
Hunter Nelson ; Edwin Barnes ; Sophia Economou; |
| 5 | Demonstration of Superadditive Communication and Nonlocality Without Entanglement with The Green Machine Temporal Mode Sorter Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We propose a practical design of the Green Machine [2], a joint-detection receiver that can attain superadditive capacity with a binary-phase-shift-keying (BPSK) modulated Hadamard code [3, 4]. |
Chaohan Cui ; Jack Postlewaite ; Babak Saif ; Linran Fan ; Saikat Guha; |
| 6 | Benchmarking Cluster States Built with QuEra Neutral Atoms Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We construct a protocol to efficiently generate cluster states in parallel with always-on interactions available with the QuEra device. |
Zhangjie Qin ; Vito Scarola; |
| 7 | Counterdiabatic Driving for Efficient Quantum Solutions to The Maximum Independent Set Problem Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This study explores the use of counterdiabatic driving in quantum annealing, focusing on its role in solving the maximum independent set (MIS) problem. |
Wen Ting Hsieh ; Dries Sels; |
| 8 | A Study of Adiabaticity in Electron Transport By Surface Acoustic Wave Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: It is widely believed that the process where SAW picks up the electron from a fixed quantum dot is adiabatic, with the electron wavefunction following the instantaneous ground state centered at the collective potential minimum. In this work we explore the adiabaticity of this electron transfer from a static to a moving (or vice versa) dot as we vary system parameters such as relative dot sizes, bias potential, and speed of the moving dot. |
Zongye Wang ; Xuedong Hu; |
| 9 | Modern Quantum Information and The Impact of Quantum Computing on Cryptography Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: With this unparalleled computational power, quantum computers have the capacity to break the widely-used cryptographic algorithms of the modern day, fundamentally altering the landscape of data security. This paper provides a deep exploration of the principles behind quantum computing and its implications for classical encryption methods, as well as the development of new strategies to secure digital communications and data. |
Daniel Shin; |
| 10 | Entangled State Generation and Coherence in STM-ESR Geometries Using Quantum Master Equations Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we demonstrate the use of a newly developed NEGF-derived quantum master equation software (TimeESR) to model ESR-STM for realistic experimental conditions relevant to atomic-scale qubit systems. |
Eric Switzer ; Jose Reina-Gálvez ; Christoph Wolf ; Geza Giedke ; Nicolás Lorente ; Talat Rahman; |
| 11 | Individual-atom Control in Array Through Phase Modulation Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Current methods based on using AC stark shift to differentiate individual qubits are challenging due to large laser power requirements. We tackle such a problem by introducing a method to engineer single qubit gates through phase-modulated continuous driving. |
Guoqing Wang ; Wenchao Xu ; Changhao Li ; Vladan Vuletic ; Paola Cappellaro; |
| 12 | Unambigous Preparation of Bell Pairs Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present a practical, iterative LOCC protocol which is able to transform any unknown two-qubit pure input state into a perfect |Φ +〉 Bell state in two iterations if the input state contains some initial entanglement, and is accessible in many copies. |
Orsolya Kalman ; Aurel Gabris ; Igor Jex ; Tamas Kiss; |
| 13 | Machine Learning-Driven Modeling and Characterization of High-Fidelity Quantum Control in Rydberg Atom Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Various error sources, including phase and intensity fluctuations in lasers, alignment errors, optical potential variations, finite lifetime of Rydberg atoms, and significant atomic motion during gate operations, must be considered to boost fidelity. To address this problem we have created a digital twin of the device in question, implementing a very comprehensive model of the system. |
Marco Rossignolo ; Satyanarayana Bade ; Anurag Saha Roy ; Shai Machnes ; Alastair Marshall ; William Steadman; |
| 14 | Towards Scalable GHz Spot Arrays for Atom Control Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We propose a co-integrated electronic-photonic platform that may be tiled to produce an arbitrarily large GHz-speed visible light modulator array for individually controlling large-scale atomic systems. |
Cole Brabec ; Thomas Propson ; Ian Christen ; Gregory Choong ; Hamed Sattari ; Amir Ghadimi ; Ruonan Han ; Dirk Englund; |
| 15 | A Universal Roadmap For Searching Repulsive Casimir Forces Between Magneto-Electric Materials Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we calculate the Casimir forces between materials with colossal magneto-electric effect. |
Zixuan Dai ; Qing-Dong Jiang; |
| 16 | Coherent Dynamics of The Swing-up Excitation Technique Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this contribution, we study the coherent dynamics of the swing-up technique with an InGaAs quantum dot. |
Katarina Boos ; Friedrich Sbresny ; Sang Kyu Kim ; Malte Kremser ; Hubert Riedl ; Frederik Bopp ; William Rauhaus ; Bianca Scaparra ; Klaus Jöns ; Jonathan Finley ; Lukas Hanschke ; Kai Muller; |
| 17 | Phonon-Mediated Temperature Dependence of Er3+ Optical Transitions in Er2O3 Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We report new measurements of the temperature dependent Er 3+ photoluminescence in single crystal Er 2O 3 thin films epitaxially grown on Si(111). |
Adam Dodson ; Hongrui Wu ; Anuruddh Rai ; Sohm Apte ; Andrew Hara ; Benjamin Lawrie ; Yongqiang Wang ; Jimmy Davidson ; Anthony Hmelo ; Agham Posadas ; Alex Demkov ; Leonard Feldman ; Norman Tolk; |
| 18 | Effect of High Frequency Irradiation on The Energy Spectrum, Plasmons and Exchange Energy of Tilted Band 1T’MoS2 Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We have studied the effect of high-frequency electromagnetic dressing field on the dynamical polarization and collective excitations in tilted monolayer 1T ‘MoS 2. |
SITA KANDEL ; Godfrey Gumbs ; Andrii Iurov; |
| 19 | Coherent Two-photon Backscattering and Quantum Interference in Multiple Scattering of Entangled and Classically Correlated Light Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present the emergence of coherent two-photon backscattering (CTPBS), an effect analogous to the classical CBS phenomenon, in multiple scattering of two-photon states of the light with quantum and classical correlations. |
Nooshin M. Estakhri ; Theodore Norris; |
| 20 | First Principles Study of Quantum Plasmonics of Few Electrons: A Case Study of Shallow Impurities in Lightly Doped ZnO Quantum Dots Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we studied extensively the absorption spectra of a protype quantum dot of sizeable ZnO of approximately 3.0 nm in diameter doped with Ga, and Al in lightly diluted limit with density functional theory (DFT) plus Hubbard corrections (U). |
Mogus Mochena ; Damilola Dada; |
| 21 | Spin-state Selective Excitation in Spin Defects of Hexagonal Boron Nitride Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here we demonstrate microwave polarization induced spin-selective excitation of V B spin transitions in He+ ion irradiated hBN using cross-shaped microwave waveguide. |
Mohammad Abdullah Sadi ; Luca Basso ; Xingyu Gao ; Sumukh Vaidya ; Benjamin Klitsner ; Emmeline Riendeau ; Khalifa M. Azizur-Rahman ; Jasmine Mah ; Gajadhar Joshi ; Tongcang Li ; Andrew Mounce ; Yong Chen; |
| 22 | Recurrence and State Revival in Homogeneous Lattices with Variable Coupling Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Rev. A 105, 032413 (2022)]. Here, we present a new method to identify exact recurrences and show the first photonic experimental implementation of these concepts in coupled fiber loops [Phys. |
Andrea Steinfurth ; Sebastian Weidemann ; Mark Kremer ; Matthias Heinrich ; Alexander Szameit; |
| 23 | Cavity QED Beyond The Long Wavelength Approximation for Periodic Systems in The Ultrastrong Coupling Regime and Beyond Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we develop a novel representation of a recently proposed Hamiltonian for describing cavity quantum electrodynamics (QED), optimized such that it efficiently converges for arbitrarily strong coupling strengths and is naturally applicable to periodic systems. |
Michael Taylor ; Braden Weight ; Pengfei Huo; |
| 24 | Quantum Correlations in Multimode Optical Fields Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Attempts to observe multimode quantum correlations in fiber optics have been restricted to a limited number of wavelength modes, typically around 10, due to squared scaling with the required spectral filters and ill-conditioning of the inversion problem depending on the choice of filters (1). To address these limitations, we introduce a novel experimental method using arbitrarily reconfigurable filters to investigate the internal quantum correlation distribution within the multimode field with heightened resolution, allowing for the examination of covariances between approximately 100 modes. |
Shiekh UDDIN ; Nicholas Rivera ; Marin Soljacic; |
| 25 | Direct Generation of Reliable Genuine W-class Triphotons in Atomic Vapor Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Different from all previous protocols, here we report the first observation of genuine reliable W-class triphoton generation with an unprecedented production rate directly through spontaneous six-wave mixing (SSWM) in a four-level triple-Λ atomic vapor cell. |
Jianming Wen ; Kangkang Li ; Ying Cai ; Yanpeng Zhang ; Min Xiao; |
| 26 | Dynamics of Thermal Light in Optical Parity-time Symmetric Structures Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This research enhances our understanding of light-matter interactions. |
Jhih-Sheng Wu ; Chih-Wei Wang; |
| 27 | Fundamental Limits to The Highly-displaced Bright Squeezed Light Generation Based on Linear Optics and Parametric Processes Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this presentation, we delve into a theoretical comparison of generating highly-displaced, bright squeezed light using a linear optical method – specifically, a beam-splitter that combines a squeezed vacuum with a potent coherent state – and parametric amplification techniques. |
Daniel Soh ; Steve Young; |
| 28 | Loss-induced Phenomena in Cavity QED Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We show that the losses can be utilized to generate single-photon emission through a novel mechanism [Phys. |
Anael Ben Asher ; Johannes Feist ; Antonio Fernández-Dominguez; |
| 29 | Activity-induced Ferromagnetism in One-dimensional Quantum Many-body Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we present our study on a non-Hermitian quantum many-body model in one dimension analogous to the Vicsek model or active spin models [1]. |
Kazuaki Takasan ; Kyosuke Adachi ; Kyogo Kawaguchi; |
| 30 | Entanglement Dynamics in A Many-body Hatano-Nelson Model Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, as a concrete example, we consider a one-dimensional tight-binding model with non-reciprocal hopping amplitudes (many-body Hatano-Nelson (HN) model) and focus on how non-Hermiticity (non-reciprocity of hopping term) affects entanglement dynamics [1]. |
Takahiro Orito ; Ken-Ichiro Imura; |
| 31 | Measuring The Complex Geometric Phase in The Dynamics of A Non-Hermitian System Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We measure the fully complex geometric phase accumulated by a set of coupled oscillators, whose non-Hermitian Hamiltonian is parametrically tuned in real time via optomechanical dynamical back-action. We show that this phase is well predicted by only the circuit geometry for a variety of circuits. |
Justin Lane ; Chitres Guria ; Judith Hoeller ; Toni Montalvo ; Jack G. Harris; |
| 32 | Optical PT-symmetry in The Absence of Gain or Loss Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, by contrast, we present a projective approach to synthesize genuinely non-Hermitian dynamics without any injection or removal of intensity from the system. |
Johannes Bentzien ; Julien Pinske ; Lukas J. Maczewsky ; Steffen Weimann ; Matthias Heinrich ; Stefan Scheel ; Alexander Szameit; |
| 33 | Scale-free Localization and PT Symmetry Breaking from Local Non-Hermiticity Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We show that a local non-Hermitian perturbation in a Hermitian lattice system generically induces scale-free localization for the continuous-spectrum eigenstates. |
Bo Li ; He-Ran Wang ; Fei Song ; Zhong Wang; |
| 34 | Real-time Dissipation-engineering-assisted Quantum State Transfer Near Exceptional Points Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Therefore, it is desirable to have full control of dissipation to minimize decoherence effect while maintaining state transfer. In this work, we implement cavity assisted bath engineering to a transmon superconducting circuit and realize real-time control of its dissipation rate. |
Weijian Chen ; Serra Erdamar ; Shishir Khandelwal ; Géraldine Haack ; Kater Murch; |
| 35 | Is There A Generic Quantum Theory for Non-Hermitian Hamiltonians? Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Unlike in the Hermitian case, the quantum mechanical formalism for the non-Hermitian operators is not unique, and additionally, suffers from singularities and instabilities. Here we propose a framework which is generic, unique and resolves these singularities. |
Priyanshi . ; Tanmoy Das; |
| 36 | Universal Spectral Moment Theorem And Its Applications In Non-Hermitian Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this paper, we propose the spectral moments in the tight-binding Hamiltonian with finite hopping range as intrinsic bulk quantities, independent of boundary conditions. |
Nan Cheng ; Chang Shu ; Kai Zhang ; Kai Sun ; Xiaoming Mao; |
| 37 | Non-Hermitian Edge Burst: Dynamics, Steady States, and Interactions Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In the second part of this talk, I will introduce a novel dynamical-steady correspondence where the edge burst in non-Hermitian dynamics is mapped to many-body steady states in open quantum systems. |
Yu-Min Hu ; Wen-Tan Xue ; Fei Song ; Zhong Wang; |
| 38 | Large Deviation Theory for Green’s Functions in Non-Hermitian Disordered Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Our work highlights an unexpected interplay between non-Hermitian skin effect and Anderson localization. |
Yinquan Huang ; Yu-Min Hu ; Wen-Tan Xue ; Zhong Wang; |
| 39 | Non-Bloch Self-energy Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: The non-Hermitian skin effect describes the exponential localization of single-particle eigenstates near the boundaries of the system. We tackle its generalization to the many-body regime by investigating interacting fermions in open quantum systems, and present an exact integral formula to calculate the self-energy based on the non-Bloch band theory. |
He-Ran Wang ; Zijian Wang ; Zhong Wang; |
| 40 | Operator-space Fragmentation and Integrability in Lindblad Open Quantum Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We investigate the extension of Hilbert-space fragmentation to Lindblad open quantum systems, in which it manifests in the dynamics of observables in the Hilbert-Schmidt space. |
Christopher Turner ; Dawid Paszko ; Dominic Rose ; Arijeet Pal; |
| 41 | A Criterion for Localization Phenomena Inherent in Non-Hermitian Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we propose a criterion for localization phenomena inherent in non-Hermitian systems just using some eigenstates. |
Kenji Shimomura ; Masatoshi Sato; |
| 42 | Neutral-atom Quantum Computing in The Munich Quantum Valley Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we report on the digital quantum computers developed within the Munich Quantum Valley. |
Sebastian Blatt ; Robin Eberhard ; Kevin Mours ; Eran Reches ; Dimitrios Tsevas ; Zhao Zhang ; Lorenzo Festa ; Max Melchner von Dydiowa ; Andrea Alberti ; Johannes Zeiher ; Immanuel Bloch; |
| 43 | An Atom-array – Nanophotonic Chip Platform with Background-free Imaging Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Further, we will discuss our protocol for the generation of atom-photon entanglement in the telecom regime with cavities that are resonant with excited state transitions of the atoms. Towards this, we will present our experimental progress towards coupling excited states of atoms with cavities, and our novel fiber-free photon coupling scheme to devices. |
Shankar G Menon ; Noah Glachman ; Matteo Pompili ; Yu-Hao Deng ; Dahlia Ghoshal ; Yuzhou Chai ; Alan Dibos ; Hannes Bernien; |
| 44 | Progress Towards An Efficient Quantum Network with Rubidium Atoms Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We report on progress towards implementing an elementary quantum network between individual 87Rb atoms mediated by a photonic link. |
Preston Huft ; Akbar Safari ; Eunji Oh ; Ethan Lu ; Omar Nagib ; Gavin Chase ; Mark Saffman; |
| 45 | Multi-qubit Entanglement for Clock States of Neutral Atoms Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We propose a scheme to generate entanglement using clock-state qubits—information encoded on hyperfine levels of the atomic ground state—that are relatively stable with a long lifetime. |
Pragati Gupta ; Barry Sanders; |
| 46 | The Application Landscape for Optimal Control of Digital and Analog Rydberg Quantum Computers Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we apply our quantum optimal control (QOC) suite to address a range of tasks in the strontium-88 Rydberg device developed within the QRydDemo project; the qubit is encoded into two fine-structure states, and the Rydberg state is used only for entangling operations. |
Alice Pagano ; Daniel Jaschke ; Sebastian Weber ; Marco Ballarin ; Ilaria Siloi ; Hans Peter Büchler ; Simone Montangero; |
| 47 | Mid-circuit Qubit Measurement and Qubit Reuse in A 171Yb Atomic Array Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we measure the nuclear spin of target atoms in an array of optical tweezer-confined 171Yb atoms to demonstrate nondestructive, state-selective, and site-selective detection [1]. |
Daniel Stack; |
| 48 | Progress Toward Benchmarking and Circuits in An 87Sr Nuclear Spin Qubit Quantum Computer Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we present progress on benchmarking gate performance and execution of circuits on an 87Sr nuclear spin qubit quantum computer. |
Jonathan King; |
| 49 | Continuously Operating Cavity-enhanced Neutral Atom Array of 1200 171Yb Atoms Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we demonstrate the assembly and continuous operation of a system of neutral $^{171}Yb$ atoms confined in a cavity-enhanced optical lattice potential at 784~nm, a magic wavelength for the $^{1}S_0$ – $^{3}P_1$ transition. |
Albert Ryou; |
| 50 | Progress Towards Two-Qubit Gates on A $^{171}$Yb Neutral Atom Quantum Processor Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present progress toward a neutral-atom based quantum computer that uses the nuclear spin degree of freedom in the ground states of alkaline-earth-like atoms as a qubit, and Rydberg-based interactions to perform two-qubit gates. |
Mark Stone; |
| 51 | Förster Resonances and Rydberg-Blockade CPhase Gate in A Dual-Species Atom-Array Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk I will present our recent efforts at demonstrating the first dual-element 2-qubit gate. |
Vikram Ramesh ; Shraddha Anand ; Conor Bradley ; Ryan White ; Kevin Singh ; Hannes Bernien; |
| 52 | Hybrid Quantum Repeater Chain with Trapped Rb Neutral Atom and Tm-doped AFC Quantum Memory Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Importantly, I will discuss a novel scheme for generating optical-telecom photon entanglement from single cavity-coupled Rb atoms detailing both cavity, trapping, and pulse design for a robust generation despite common imperfections such as imperfect cavity coupling and laser polarization. |
Fenglei Gu ; Johannes Borregaard ; Shankar Menon ; Hannes Bernien ; David Maier ; Wolfgang Tittel; |
| 53 | Non-Hermitian Rydberg Atoms for Studying Quantum Sensing Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We consider utilizing trapped, ultracold neutral atoms to simulate non-Hermitian quantum physics for understanding sensitivity scaling, quantum information bounds and entanglement spreading in open many-body systems. |
Avadh Saxena ; Andrew Harter; |
| 54 | Short-visible-wavelength GHz Spot Arrays for Atom Control Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we report on conversion of light from an array of thin-film-lithium-niobate integrated photonic modulators to 420nm via sum-frequency generation with a strong pump beam. |
Thomas Propson ; Ian Christen ; Hamed Sattari ; Gregory Choong ; Adrian Menssen ; Amir Ghadimi ; Franco N C Wong ; Dirk Englund; |
| 55 | Thermodynamic Observables for AMO Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: The goal of this work is to explore the analogue quantum simulation at finite temperature. |
Hrushikesh Sable ; Nathan Myers ; Vito Scarola; |
| 56 | Intrinsic Mixed-state Topological Order Without Quantum Memory Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we show that decoherence can also give rise to new types of topological order. Specifically, we construct two such examples by proliferating fermionic anyons in the two-dimensional toric code model and the Kitaev honeycomb model through certain local quantum channels. |
Zijian Wang ; Zhengzhi Wu ; Zhong Wang; |
| 57 | Exact Solutions of Boundary Driven Dissipative Quantum Spin Chains with Disorder Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we derive an exact solution for the steady state of an XX-coupled N-qubit spin chain, with possibly non-uniform couplings, that is subject to a boundary Rabi drive and boundary loss on one end [1]. |
Andrew Lingenfelter ; Mingxing Yao ; Andrew Pocklington ; Yuxin Wang ; Abdullah Irfan ; Wolfgang Pfaff ; Aashish Clerk; |
| 58 | Emergence of Self-averaging in Non-unitary Quench Dynamics of Chaotic Many-body Quantum Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this presentation, we show that by breaking the unitarity of the time evolution, we induce self-averaging. |
Adway Das ; Patrick Pinney ; E. Jonathan Torres-Herrera ; Lea F. Santos; |
| 59 | Topologically Ordered Steady States in Open Quantum Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Our work highlights the essential difference between ground-state topological order in closed systems and steady-state topological order in open systems. |
Xu-Dong Dai ; Zhong Wang ; He-Ran Wang ; Zijian Wang; |
| 60 | Entanglement Assisted Probe of The Non-Markovian to Markovian Transition in Open Quantum System Dynamics Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We observe the collapse and revival of the entanglement as a signature of quantum memory effects in the environment. |
Chandrashekhar Gaikwad ; Daria Kowsari ; Xingrui Song ; Carson Brame ; Haimeng Zhang ; Eli Levenson-Falk ; Kater Murch; |
| 61 | Markovian and Non-Markovian Master Equations Versus An Exactly Solvable Model of A Qubit in A Cavity Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We investigate the dynamics of a qubit in a leaky cavity interacting with a bosonic bath, using the Jaynes–Cummings model, characterized by three different spectral densities: an impulse spectral density, an Ohmic spectral density, and a proportional spectral density with a sharp cutoff. |
Juan Garcia Nila ; Daniel Lidar ; Zihan Xia ; Dawei Zhong ; Todd Brun; |
| 62 | Title: Oral: Non-Markovian Quantum Emitter Interactions Via A Structured Reservoir Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We explore the collective behavior of two distant quantum emitters coupled through a waveguide with nonlinear dispersion properties. |
Ankit Kundu ; Kanu Sinha ; Hadiseh Alaeian; |
| 63 | Steady State Convergence Conditions for The Fourth Order Time-Convolutionless Master Equation Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: With our optimal representation of the TCL4 generator, we investigate the requirements for return to equilibrium, and at zero temperature, approach to the global ground state. |
Elyana Crowder ; Dragomir Davidovic ; lance lampert ; Shantanu Chaudhary ; Srikar Gadamsetty ; Yiting Pei; |
| 64 | Effect of Non-Markovian Dephasing Bath on Dicke Phase Transition Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We study the zero temperature Dicke superradiant phase transition when each atom is coupled to an individual non-Markovian dephasing bath. |
Anqi Mu ; Nathan Ng ; David Reichman; |
| 65 | Giant Atoms in A Two-dimensional Structured Environment — Protection from Decoherence Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we will show how giant atoms can avoid decoherence (through subradiance, decoherence-free interaction, and the overlap of bound states), and how their dynamics compare to that of small atoms and continuous waveguides. |
Ariadna Soro ; Emil Ingelsten ; Anton Frisk Kockum; |
| 66 | Hidden Time-reversal Symmetry and Exact Solutions of Driven-dissipative Spin Models Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: I’ll discuss how a subtle kind of anti-unitary symmetry (what we term "hidden time-reversal symmetry") can enable exact solutions of several non-trivial many-body models (described by Lindblad master equations) in regimes where conventional approximations fail. |
Aashish Clerk; |
| 67 | Collective Radiative Interactions and The Discrete Truncated Wigner Approximation to Dissipative Spin Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Due to the recent experimental realization of atomic arrays at sub-wavelength spacings, collective interaction effects such as superradiance have regained substantial interest. I discuss a semiclassical approach to this problem that allows to describe the coherent and dissipative many-body dynamics of interacting spins while taking into account lowest-order quantum effects. |
Michael Fleischhauer; |
| 68 | Atoms Interlinked By Light: Programmable Interactions and Entanglement Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: I will report on advances in programming the graph of interactions [1] and entanglement [2] in an array of atom clouds trapped in an optical cavity. |
Monika Schleier-Smith; |
| 69 | Dicke Superradiance and Many-body Decay in Generic Baths Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we argue that a perturbation breaks superradiance if it removes the scaling of the burst in the limit of large emitter numbers. |
Daniel Malz; |
| 70 | Cavity-enhanced Narrowband Spectral Filters in Rare-earth Ion-doped Thin-film Lithium Niobate Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we demonstrate narrowband cavity-enhanced spectral filters based on rare-earth ion-doped thin-film lithium niobate. |
Yuqi Zhao ; Dylan Renaud ; Demitry Farfurnik ; Neil Sinclair ; Edo Waks ; Marko Loncar; |
| 71 | Phonon-assisted Casimir Interactions: The Case of Piezoelectric Materials Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here by utilizing the generalized Born-Huang hydrodynamics model, three types of phonons in piezoelectrics are studied: longitudinal optical phonon, transverse optical phonon and interface phonon polariton [1]. |
Dai Nam Le ; Pablo Rodriguez-Lopez ; Lilia Woods; |
| 72 | Comprehensive Study of Photodegradation and Thermal Responses in Violet Phosphorus Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present a comprehensive investigation of the photo-degradation and thermal effects of exfoliated VP on SiO 2 substrate. |
Mahdi Ghafariasl ; Sarabpreet Singh ; Sampath Gamage ; Timothy prusnick ; Michael Snure ; Yohannes Abate; |
| 73 | Nonreciprocal Beam Splitters and Wavevector Discretization in Magneto-Optics Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present theoretical and numerical solutions, along with computational verification in bismuth-substituted iron garnets. |
Seth Nelson; |
| 74 | Monomolecular Heat Engine Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we have explored the thermoelectric properties of bi-radical organic molecule (Sme-2Os) in sub-Kelvin temperatures with the double lock-In technique[3]. |
Serhii Volosheniuk ; Thomas Baum ; Ricardo Conte ; Saleta Fernandez ; Manuel Vilas Varela ; Diego Pena ; Pascal Gehring ; Herre S.J. van der Zant; |
| 75 | Ultrafast Pump-Probe Nano-Imaging of Carrier and Lattice Dynamics of WSe2/SiO2 Heterostructures Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here we present ultrafast heterodyne pump-probe nano-imaging with pump-modulation as a technique for characterizing the nano-spatial and ps-timescale processes at the interface with full spatial, temporal, and spectral resolutions. |
Emily Chavez ; Branden Esses ; Samuel Johnson ; Peter Chabal ; Michael Fogler ; Markus Raschke; |
| 76 | Building A Benchmark Set of Transition Metal Dimers for Assessing The Prediction of Magnetic Exchange Coupling Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Our objective is to formulate a representative benchmark set for TMCs that balances diversity with manageability. |
Eli Driscoll ; Henry Fitzhugh ; Jianwei Sun ; Juan Peralta; |
| 77 | Harnessing Random Media for Advanced Optical Signal Processing and Computing Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this study, we present and analyze basic multiport configurations capable of executing random projections within a photonic chip. |
Jiajie Ding ; Jonathan Friedman ; Mohammad-Ali Miri; |
| 78 | Hyper-gap Optical Materials Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Optical materials largely refer to transparent insulators and semiconductors for guiding, diffracting, and nonlinearly generating light at photon energies below the electronic bandgaps. Here we propose that a solid can be equally lossless above the fundamental bandgap inside an energy interval dubbed the hyper-gap, in a class of crystals consisting of well-isolated conduction and valence bands. |
Kun Chen ; XiaoLei Hu ; Zhengran Wu ; Zhilin Li ; Ling Lu; |
| 79 | Contribution to Nonlinear Optical Raman Spectroscopy and Microscopy Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We introduced, characterized, and developed instrumentation and spectral processing methods of the two-beam, 3-color broadband coherent Raman approach. |
Laszlo Ujj; |
| 80 | Idealizing Tauc Plot for Accurate Bandgap Determination of Semiconductor with UV-Vis: A Case Study for C-BAs Related Papers Related Patents Related Grants Related Venues Related Experts View Abstract: The Tauc plot is widely used to determine the bandgap of semiconductors, but the actual plot often exhibits significant baseline absorption below the expected bandgap, leading to … |
Hong Zhong ; Fengjiao Pan ; Shuai Yue ; Chenzhen Qin ; Viktor Hadjiev ; Fei Tian ; Xinfeng Liu ; Feng Lin ; Zhiming Wang ; Zhifeng Ren ; Jiming Bao; |
| 81 | Scalable Donor-based Electron Spin Qubit Unit in Silicon Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we propose a scalable unit of donor-based electron spin qubits that incorporates an ancilla donor. |
Shihang Zhang ; Yu He ; Peihao Huang; |
| 82 | Nanoscale Electrical Tuning of Charged Excitons in Two-Dimensional Materials with 1-nm Gate Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We observed the photoluminescence (PL) spectral behavior of neutral excitons (X o), charged trions (X -), and charged biexcitons (XX -) under various applied biases. |
Jawaher Almutlaq ; Jiangtao Wang ; Linsen Li ; Chao Li ; Tong Dang ; Vladimir Bulović ; Jing Kong ; Dirk Englund; |
| 83 | Defining Mach’s Principle in A Topological World Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This suggests Mach’s principle is applicable only to the scale-invariant topological impedances. We seek to define Mach’s principle in light of this limitation. |
Peter Cameron ; Michael Cook; |
| 84 | Spin-phonon Entanglement in SiC Optomechanical Quantum Oscillators Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Remarkably, we proposed the hybrid spin-optomechanical system in a Raman-facilitated scheme which offers a coupling of spins to the vibration mode of simulated Silicon Carbide OMC cavities approaching MHz, enabling a fast and efficient spin-phonon entanglement with fidelity of 98%. |
Ruoming Peng ; Xuntao Wu ; Durga Dasari ; Jörg Wrachtrup; |
| 85 | Magnetic Relaxometry Study of Cytochrome C Using Nitrogen Vacancy Centers in Diamond Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this study, we perform NV- T 1 relaxometry measurements on a diamond chip doped with a 8-nm thick NV-layer without the presence of Cyt-C, yielding a relaxation time of approximately 1.2 ms. Subsequently, by varying the concentration of Cyt-C from 2.6 µM to 54 µM on the diamond surface, we observe a reduction in the T 1 time to 850 µs and 150 µs, respectively. |
Abdelghani Laraoui ; Suvechhya Lamichhane ; Rupak Timalsina ; Cody Schultz ; Ilja Fescenko ; Kapildeb Ambal ; Sy-Hwang Liou ; Rebecca Lai; |
| 86 | An Optimization Framework for Deterministic Generation of Photonic Graph States Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We introduce an optimization method for deterministic generation of photonic graph states considering cost metrics such as circuit depth and gate count which is based on the local Clifford (LC) equivalency of quantum states. |
Sobhan Ghanbari ; Jie Lin ; Benjamin MacLellan ; Luc Robichaud ; Piotr Roztocki ; Hoi-Kwong Lo; |
| 87 | Scheduling Compact Error Correcting Codes in Entanglement Distribution Networks Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we develop an approach for extending the effective coherence time of shared entanglement between nodes by utilizing compact quantum error correcting (QEC) codes, which are scheduled and run locally on resource-constrained repeaters, to maximize the fidelity of the shared state, while also accounting for the incurred gate noise from QEC circuit operations. |
Keith Kenemer ; Michelle Chalupnik ; Michelle Fernandez ; Michael Cubeddu ; Eric Brown; |
| 88 | Optimal Non-local Franson Bi-photon Quantum Interferometry Via High-finesse Cavities in Quantum Communications Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In our research, we have identified the cavity finesse F as a pivotal parameter for optimizing non-local Franson biphoton interferometry and BFC time correlations. |
Sophi Song ; Kai-Chi Chang ; Xiang Cheng ; Murat Can Sarihan ; Chee Wei Wong; |
| 89 | Highly-efficient Multimode Superconducting Integrated Quantum Memory Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We experimentally demonstrate microwave quantum storage for two spectral modes of microwave radiation in on-chip system of eight coplanar superconducting resonators. |
Aleksei Matanin ; Konstantin Gerasimov ; Eugene Moiseev ; Nikita Smirnov ; Anton Ivanov ; Elizaveta Malevannaya ; Victor Polozov ; Evgeny Zikiy ; Sergey Moiseev ; Ilya Rodionov; |
| 90 | Quantum Simulation of Many-body Physics with Accuracy Guarantees Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: However, due to the presence of errors and without explicit error correction, both (a) the extent to which the output of the quantum simulator can be trusted, and (b) if the quantum simulators provide a computational advantage over classical algorithms, remain unclear. In this work we aim to theoretically answer both of these questions. |
Adrian Rubio ; Rahul Trivedi ; Ignacio Cirac ; Sara Mouradian ; Vikram Kashyap; |
| 91 | Probing Su–Schrieffer–Heeger-like Behavior in A Tilted Synthetic Flux Ladder Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, I discuss our theoretical studies of quantum dynamics of two-level fermionic atoms in a tilted synthetic flux ladder, where we see a non-trivial interplay of the tilt, the nearest-neighbor hopping and the spin-orbit-coupled laser drives. |
Tianrui Xu ; Ana Maria Rey ; Anjun Chu; |
| 92 | Oral: Optimizing Quantum Logic Spectroscopy for Molecular State Control Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: While experimentally demonstrated, this method is limited by blackbody radiation exciting numerous hyperfine states, requiring a large number of measurements for state preparation and spectroscopic data collection. To address this challenge, we perform Monte Carlo simulations of a new protocol involving a two-step process. |
Anastasia Pipi ; Xuecheng Tao ; David Leibrandt ; Prineha Narang; |
| 93 | Molecular Entanglement Witness By Absorption Spectroscopy in Polariton Chemistry Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Our work proposes a general protocol to sufficiently measure molecular entanglement for chemical systems at room temperature in experiments and demonstrate the long-lived multi-molecular entanglement in the polariton chemistry systems. |
Weijun Wu ; Francesca Fassioli Olsen ; Gregory Scholes; |
| 94 | Building Graph States with Optically Trapped Molecules Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we will discuss how to use molecular rotational levels of optically trapped bi-alkali systems to build graph states via the dipole-dipole interaction under Floquet dressing. |
Ryan Scott ; Svetlana Kotochigova ; Bryce Gadway ; Brian DeMarco ; Vito Scarola; |
| 95 | Numerical Study of Entangled Helical Spin Currents in A Spinor Bose-Einstein Condensate Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We numerically study the dynamics of perfectly helical spin currents where two counter-propagating spin currents are quantum-mechanically entangled. |
Emi Yukawa; |
| 96 | Super-Exponential Scrambing and Slow Entanglement Growth in The Deep Hilbert Space of All-to-All Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We explore several aspects of the all-to-all quantum dynamics away from the TSS, and reveal surprising features of the "deep Hilbert space” (DHS). |
Zihao Qi ; Thomas Scaffidi ; Xiangyu Cao; |
| 97 | Quantum Coherence Controls The Nature of Equilibration and Thermalization in Coupled Chaotic Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Abstract: A bipartite system whose subsystems are fully quantum chaotic and coupled by a perturbative interaction with a tunable strength is a paradigmatic model for investigating how … |
Jethin Pulikkottil Jacob ; Arul Lakshminarayan ; Shashi C. L. Srivastava ; Maximilian F. I. Kieler ; Arnd Bäcker ; Steven Tomsovic; |
| 98 | Efficient Local Classical Shadow Tomography with Number Conservation Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This is a serious shortcoming. We propose and analyze a new local shadow tomographic protocol adapted to such systems. |
Sumner Hearth ; Anushya Chandran ; Michael Flynn ; Christopher Laumann; |
| 99 | Spectra and Phase Transition in Grover’s Algorithm with Systematic Noise Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we present a study of Grover’s search algorithm in the presence of systematic noise. |
Sasanka Dowarah ; Chuanwei Zhang ; Vedika Khemani ; Michael Kolodrubetz; |
| 100 | Probing Quantum Floating Phases in Rydberg Atom Arrays Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this study, we experimentally observe a quantum floating phase using Rydberg arrays with ladder geometries, employing up to 92 qubits. |
Sergio Cantu ; Shengtao Wang ; Alexander Keesling ; Nathan Gemelke ; Fangli Liu ; Alexander Lukin ; Jin Zhang ; Alexei Bylinskii ; Shan-Wen Tsai ; Florian Huber ; Boris Braverman ; Jesse Amato-Grill ; Yannick Meurice; |
| 101 | Towards Hybrid Event Generators for Particle Physics with Rydberg Atoms Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We show that platforms made publicly available recently allow empirical explorations of the critical behavior of quantum simulators. |
Yannick Meurice ; Sergio Cantu ; Jin Zhang ; Shan-Wen Tsai ; Fangli Liu ; Shengtao Wang ; Kenneth Heitritter ; Kenneth Heitritter ; James Corona; |
| 102 | Lattice Supersolidity and Simplex Phases in A Three-level Rydberg System Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We investigate quantum phases of matter naturally realizable in a two-dimensional Rydberg array using three different highly-excited Rydberg states as an encoding. |
Vincent Liu ; Jack Kemp ; Rhine Samajdar ; Maxwell Block ; Marcus Bintz ; Norman Yao; |
| 103 | Light-matter Interaction in Rydberg States of Argon Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present a theoretical model capable of describing the electron dynamics taking place during and after the interaction of atomic systems with intense electromagnetic fields. |
Karl Hauser ; Nikolay Golubev; |
| 104 | Spectroscopic Evidence for The Magnonic Superradiant Phase Transition in Erbium Orthoferrite Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we present spectroscopic evidence for a magnonic SRPT in erbium orthoferrite (ErFeO 3). |
Dasom Kim ; Sohail Dasgupta ; Xiaoxuan Ma ; Joongmok Park ; Haotian Wei ; Liang Luo ; Jacques Doumani ; Xinwei Li ; Henry Everitt ; Shojiro Kimura ; Shixun Cao ; Hiroyuki Nojiri ; Motoaki Bamba ; JIGANG Wang ; Kaden Hazzard ; Junichiro Kono; |
| 105 | Aharonov-Bohm Effect for Confined Matter in Lattice Gauge Theories Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we propose a specific scheme implementing an analogic quantum simulation of lattice gauge theories constrained to mesoscopic spatial scales. |
Enrico Calogero Domanti ; Paolo Castorina ; Dario Zappalà ; Luigi Amico; |
| 106 | Exploring The AB Effect Through Observations of An N-type System Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: While the vector AB effect has been experimentally validated through double-slit interference experiments involving a constant magnetic flux behind the slits, an isolated electric scalar AB effect experiment has not been realized. To address this, we present an experimental apparatus to investigate the electric scalar AB effect, employing hydrogen-like atoms contained within a Faraday cage. |
Jonathan Daniel; |
| 107 | Classical Description of A Quantum Particle in A Fermi Sea Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we propose a scheme for simulating quantum systems in which some of the degrees of freedom are approximated by classical variables. |
Maciej Maska ; Tomasz Sowinski ; Marlena Dziurawiec ; Damian Wlodzynski; |
| 108 | Exactly Solvable Two-body Problem in Two-dimensional Quantum Mechanics Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present the energy spectrum for any arbitrary state with the azimuthal number m. Interesting aspects of the solutions unique to the 2D case are discussed. |
Roman Kezerashvili ; Jianning Luo ; Claudio Malvino; |
| 109 | Supergrowing Optical Fields: Subwavelength Imaging and Generation Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In my talk, I will show that supergrowing and superoscillating optical fields can help us reconstruct subwavelength objects. |
TATHAGATA KARMAKAR ; Sethuraj Raju ; Abhishek Chakraborty ; Sultan Abdul Wadood ; Nick Vamivakas ; Andrew Jordan; |
| 110 | Light Chaotic Dynamics and Ray Engineering Transformed from Curved to Flat Space Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Following the flow of transformation, we propose to engineer the trajectories of light rays by inheriting exotic geodesics on curved surfaces. |
Chenni Xu ; Itzhack Dana ; Li-Gang Wang ; Patrick Sebbah; |
| 111 | Ultrafast Electron Dynamics in Neutral Graphene Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present a theoretical model capable of describing the electron dynamics taking place during and after the interaction of graphene with intense electromagnetic fields. |
Mingrui Yuan ; Nikolay Golubev; |
| 112 | 2d Materials Based Graphene for Water Desalination Applications Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We propose a novel water filtration membrane based on two-electrode nano-porous graphene on substrate. |
Mohammed Amlieh; |
| 113 | Schlieren Imaging of An Acoustic Guiding Wave in A Double-Slit Arrangement Related Papers Related Patents Related Grants Related Venues Related Experts View Abstract: A double-slit acoustic wave diffraction pattern that guides the motion of small Styrofoam balls may serve as a visual analogue to the de Broglie-Bohm interpretation of electron … |
Angelea Arnett ; Herman Batelaan; |
| 114 | Mutual Neutralization in He+ + H- Collision at Energy Below 25 MeV and Isotope Effect Related Papers Related Patents Related Grants Related Venues Related Experts View Abstract: At collision energy below 25 meV, our branching ratios of the mutual neutralization in He + + H – and He + + D – collisions measured with the single-pass merged beam setup at the … |
Vola Masoandro Andrianarijaona ; Arnaud Dochain ; Xavier Urbain; |
| 115 | Trap-integrated Technologies for Scalable Trapped-ion Quantum Information Processing Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: A promising platform for the integration of several relevant technologies at larger scales is based on established micro- and nano-fabrication processes, which provide devices with unsurpassed reproducibility, alignment precision, and electronic and photonic capabilities at the chip level. I will describe a platform utilizing such processes for monolithic integration of trap electrodes and optical components for ion-qubit control and readout. |
John Chiaverini; |
| 116 | Design, Fabrication, and Validation of Junction Ion Traps Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here we propose an architecture in which the number of analog control signals is completely independent of the number of legs in the trap. |
Curtis Volin ; Ian Hoffman; |
| 117 | Quantum Control and Quantum Error Correction in Trapped Ion Quantum Computers Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: The qubit performance is primarily limited by the quality of the gates due to imperfections in the experimental control fields. I will present our work on characterizing and minimizing these imperfections using quantum control with an emphasis on two-qubit gates and quantum circuit designs. |
Kenneth Brown; |
| 118 | Trap-integrated Qubit Control and Readout Elements for Scaling Trapped Ion Quantum Computers Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: The integration of qubit control and readout elements into microfabricated surface-electrode ion traps offers potential advantages for scaling to larger trapped-ion systems. I will describe two efforts in this direction from our group. |
Daniel Slichter; |
| 119 | Role of Cavity Length in Tuning The Position of Resonance Peaks in Fabry Perot Interferometer Related Papers Related Patents Related Grants Related Venues Related Experts View Abstract: Tuning of resonance peaks varying the cavity lengths in the Fabry Perot interferometer is of great interest in optoelectronic device applications such as optical filters. To … |
Chandra M. Adhikari ; Dipendra Dahal ; Basu Lamichhane; |
| 120 | Accessing The Silicon Vacancy Centers Electron Spin in Nanodiamonds with Hybrid Quantum Photonics Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This hybrid interconnection allows for separate optimization of the photonic design as well as preselection of the nanodiamond host. Here, we present our progress of this interconnection and the achieved cQED parameters, which has provided Purcell broadened optical access to the SiV centers electron spin [4] while preserving the spin-properties of the SiV, even after integration. |
Lukas Antoniuk ; Niklas Lettner ; Anna Ovvyan ; Marco Klotz ; Helge Gehring ; Daniel Wendland ; Viatcheslav Agafonov ; Wolfram Pernice ; Alexander Kubanek; |
| 121 | First-Principle Investigation Of Near-Field Energy Transfer Between Localized Quantum Emitters in Solids Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present a predictive and general approach to investigate near-field nonradiative resonant energy transfer (NRET) between localized defects in semiconductors, which couples first principle electronic structure calculations and a nonrelativistic quantum electrodynamics description of photons in the weak-coupling regime [1]. |
Swarnabha Chattaraj ; Supratik Guha ; Giulia Galli; |
| 122 | Anomalous Purcell Decay of Strongly Driven and Disordered Emitters Coupled to A Cavity (Part 1): Experiment Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we explore the experimental modification of the ensemble optical decay of trivalent erbium ions (Er 3+) coupled to a nanocavity at a temperature of 3 K. |
Michael Solomon ; Martin Koppenhoefer ; Cheng Ji ; Gregory Grant ; Ignas Masiulionis ; Mikhail Mamaev ; Sean Sullivan ; F. Joseph Heremans ; Supratik Guha ; David Awschalom ; Aashish Clerk ; Alan Dibos; |
| 123 | Anomalous Purcell Decay of Strongly Driven and Disordered Emitters Coupled to A Cavity (Part 2): Theory Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We theoretically characterize the dynamics of the light field and collective spin observables with a variety of techniques, including semi-classical approaches and Holstein-Primakoff mappings. |
Mikhail Mamaev ; Martin Koppenhoefer ; Michael Solomon ; Cheng Ji ; Gregory Grant ; Ignas Masiulionis ; Sean Sullivan ; F. Joseph Heremans ; Supratik Guha ; David Awschalom ; Alan Dibos ; Aashish Clerk; |
| 124 | Purcell Enhancement of A Single T Center in A Silicon Nanophotonic Cavity Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This work represents a major step towards utilizing single T centers in silicon for quantum information processing and networking applications. |
Adam Johnston ; Ulises Felix-Rendon ; Yu En Wong ; Songtao Chen; |
| 125 | High-efficiency Single Photon Emission from A Silicon T-center in A Nanobeam Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In our study, we demonstrate high-efficiency single photon emission from a T center using a nanobeam. |
Fariba Islam ; Changmin Lee ; Mustafa Atabey Buyukkaya ; Stephanie Simmons ; Daniel Higginbottom ; Samuel Harper ; Mohammad Habibur Rahaman ; Edo Waks; |
| 126 | Optimization of Optical Coupling of A Silicon Vacancy Center in A Nanodiamond to A Hybrid Quantum Photonic Device Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: [2,3] Here we present our hybrid approach that combines negatively charged silicon vacancy centers in nanodiamonds with silicon nitride photonics. |
Niklas Lettner ; Lukas Antoniuk ; Anna Ovvyan ; Helge Gehring ; Daniel Wendland ; Viatcheslav Agafonov ; Wolfram Pernice ; Alexander Kubanek; |
| 127 | Nanoscale Photodetection in LaAlO3/KTaO3 Heterostructures Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here we report the development of a rewritable nanoscale photodetector created at the interface between LaAlO3 and KTaO3. |
Pubudu Wijesinghe ; Melanie Dieterlen ; Muqing Yu ; Jieun Kim ; Chang-Beom Eom ; Patrick Irvin ; Jeremy Levy; |
| 128 | Quantum PT-Phase Diagram in A Non-Hermitian Photonic Structure Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: To characterize the PT-symmetry or -broken phase, we define an Hermitian exchange operator expressing the exchange between quadrature variables of two modes. |
Xinchen Zhang ; Yun Ma ; Qi Liu ; Nuo Wang ; Yali Jia ; Zhanqiang Bai ; Junxiang Zhang ; Qihuang Gong ; Qihuang Gong ; Ying Gu; |
| 129 | Imaging and Probing Spin Polarons in Kinetically Frustrated Lattices Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we present new results directly imaging itinerant spin polarons in a triangular lattice Hubbard system using a quantum gas microscope, where full spin-charge readout allows measurement of arbitrary n-point correlation functions. |
Benjamin Spar ; Max Prichard ; Ivan Morera ; Eugene Demler ; Zoe Yan ; Waseem Bakr; |
| 130 | BCS-BEC Crossover in Atomic Fermi Gases in Quasi-two-dimensional Lieb Lattices: Effect of Flat Band at Finite Temperature Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: The superfluid behavior of ultracold atomic Fermi gases with a short range attractive interaction in quasi-two-dimensional Lieb lattices is studied using a pairing fluctuation theory, within the context of BCS-BEC crossover, with a focus on the interplay of finite temperature and flat band. |
Qijin Chen ; Hao Deng ; Lin Sun; |
| 131 | Flat Band Effects on The Ground-state BCS-BEC Crossover in Atomic Fermi Gases in A Quasi-two-dimensional Lieb Lattice Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present the computed phase diagram, in which a pair density wave state emerges at high densities away from half filling and relatively strong interaction strength. |
Qijin Chen ; Hao Deng ; Lin Sun; |
| 132 | Ultracold Bosons in The Flat Band of An Optical Kagome Lattice Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: I will report on recent progress in identifying the many-body physics that comes into play as we melt a kagome Mott insulator into the flat band. |
Luca Donini ; Sompob Shanokprasith ; Daniel Braund ; Tobias Marozsak ; Tim Rein ; Liam Crane ; Max Melchner von Dydiowa ; Daniel Reed ; Tiffany Harte ; Mehedi Hasan ; Ulrich Schneider; |
| 133 | Effect of Disorder on Multifractality and Hyperuniformity in Quasicrystalline Bose-Hubbard Models Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Despite the aperiodic structures of quasicrystals, we sometimes find quantum phenomena similar to those of crystals. |
Masahiro Hori ; Takanori Sugimoto ; Yoichiro Hashizume ; Takami Tohyama; |
| 134 | Confined States of A Spinon Gas in A Mixed-dimensional XXZ Model Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here we study a two-dimensional system where we consider the usual XXZ interactions in the x-direction and a simple Ising interaction in the y-direction, which we refer to as a mixed-dimensional XXZ model. |
Matjaz Kebric ; Ulrich Schollwöck ; Annabelle Bohrdt ; Fabian Grusdt; |
| 135 | Magnetoelectric Response in Bosonic Insulators Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We adapt this analysis to the case of gapped bosonic systems with a U(1) charge, and find a formula for the magneto-electric response in terms of the Berry connection on the bosonic modes. |
Gautam Naik ; Michael Flynn ; Christopher Laumann; |
| 136 | Structural Complexity of Fermi Hubbard Model Snapshots Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work we study the evolution of the structural complexity in projective measurements (snapshots) of the two-dimensional Fermi Hubbard model across different filling fractions and temperatures spanning the antiferromagnetic regime and the strange metallic regions. |
Eduardo Ibarra Garcia Padilla ; Richard Scalettar ; Ehsan Khatami; |
| 137 | Stability of A Molecular Bose-Einstein Condensate in Atomic Bose Gases Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, using a two-channel Feshbach Hamiltonian, we theoretically characterize the associated stability. |
Zhiqiang Wang ; Ke Wang ; Qijin Chen ; Kathryn Levin; |
| 138 | Study of The Interaction of Static Impurity Within A Dipolar Environment Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: These dynamics are not only necessary for quantum mechanics but also important to understand several open questions in areas like high-energy physics, cosmology, and quantum data processing [1]. In the present work, we explore these dynamics using a static impurity in a quantum environment as our model. |
Neelam Shukla ; Artem Volosniev ; Jeremy Armstrong; |
| 139 | Joint First-order Superfluid Transition of A Strongly Ferromagnetic Spin-1 Bose Gas Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: For 7Li, we predict that the normal gas undergoes a joint first order transition and jump directly into a state with finite superfluid density. |
Pye Ton How ; Sungkit Yip; |
| 140 | Fractional Angular Momentum Quantization in Atomtronic Circuits Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Specifically, for a ring geometry pierced by a synthetic gauge field, we find that the angular momentum quantization per particle acquires fractional values depending on the number of particles constituting the bound state [1]. |
Juan Polo ; Luigi Amico ; Wayne Chetcuti ; Andreas Osterloh; |
| 141 | Characterization of NASA Cold Atom Laboratory Potentials Using Variational Techniques Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present the experimental data, the initial estimate of the stray magnetic field, our refined estimate and a program of tuning the external magnetic field and atom-chip currents that can be used to produce the intended intended motion of the condensate with the stray field present. |
Mark Edwards ; Samuel Oni ; Cass Sackett; |
| 142 | Chiral Current of Bose-Einstein Condensates Via Asymmetric Tunneling Related Papers Related Patents Related Grants Related Venues Related Experts View Abstract: Tunnelling is one of the most well studied phenomena in quantum physics, and its implementations can be seen across many different fields. For example, the experimental creation … |
Dustin Lindberg ; Naceur Gaaloul ; Lev Kaplan ; Jason Williams ; Dennis Schlippert ; Patrick Boegel ; Ernst Rasel ; Denys Bondar; |
| 143 | Thermocrystallization in Lattice Dipolar Bosons Coupled to A High-finesse Cavity Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we will address the robustness of superfluidity and density-density correlations against temperature fluctuations. |
Yaghmorassene Hebib ; Barbara Capogrosso Sansone ; Yaghmorassene Hebib ; Chao Zhang; |
| 144 | Towards A Realistic Model for Cavity-Enhanced Atomic Frequency Comb Quantum Memories: The Critical Role of Dispersion Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We develop a theoretical model for cavity-enhanced AFC quantum memory and investigate the role of dispersion in the model. |
Shahrzad Taherizadegan ; Jacob Davidson ; Sourabh Kumar ; Daniel Oblak ; Christoph Simon; |
| 145 | Superentanglement: Unification of Quantum and Classical Physics Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We postulated based on widely accepted principles, reinterpreted mathematical equations, and worked from a bottom-up approach, rather than a top-down approach in an attempt to gain a greater understanding of various universal phenomenon. Accordingly, in order to solve for the anomalies presented by quantum physics, we applied these reinterpreted postulates to collapse of the wave function and quantum entanglement using models based on Euclidian geometry. |
Syed Zaheer; |
| 146 | Carbon Dioxide (CO2) As A Quantum Molecular Sensor in Protoplanetary Disks.State-to-state Rovibrational Transition Rates for CO2 in The Bend Mode in Collisions with Helium (He) Atoms Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we present rate coefficients for temperatures up to 500 K for CO 2-He collisions in which CO 2 is (de)excited in the bend mode. |
Taha Selim ; Gerrit Groenenboom ; Ad van der Avoird; |
| 147 | Cooperative Non-Markovian Emission in A Single-band Waveguide Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We investigate the collective radiative dynamics of two quantum emitters emitting two bosons in a 1D single-band waveguide. |
Alfonso Lanuza ; Dominik Schneble; |
| 148 | A Diffusion Quantum Monte Carlo Approach to The Polaritonic Ground State Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we explore the formally exact diffusion quantum Monte Carlo approach (DQMC) to obtain numerical solutions to the polaritonic ground state during the dissociation of the H 2 molecular system. |
Braden Weight ; Sergei Tretiak ; Yu Zhang; |
| 149 | Sub-nanometer Confinement and Phononic Bus in Multi-dimensional Atomic Lattice Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This talk proposes a new scheme for atomic optical lattice with sub-wavelength spatial structure. |
Mohammadsadegh Khazali; |
| 150 | Optimal Population Transfer in Driven-dissipative Systems Using Adiabatic Rapid Passage Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Landau and Zener accurately derived the transfer probability of ARP for closed systems following unitary dynamics and showed that this probability increases with higher drive amplitude. In this work, we adopt a quantum master equation approach to investigate the dissipative effects of the applied drive on the performance of ARP that is implemented using a linearly-chirped pulse on a two-level system interacting with its environment. |
Nilanjana Chanda ; Pratik Patnaik ; Rangeet Bhattacharyya; |
| 151 | Improved Selection of Dark States in The Presence of Drive-induced Dissipation Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We report that increasing DID shows a narrowing of CPT linewidth and hence improved selection of the dark states. |
Arpan Chatterjee ; Rangeet Bhattacharyya; |
| 152 | Squeezing in Atomic Boson Sampling Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Recently, atomic boson sampling of excited atom occupations in an equilibrium interacting gas with a Bose-Einstein condensate (BEC) has been suggested [V.V. Kocharovsky et al., PRA 106, 063312 (2022), Entropy 24, 1771 (2022)] as a process that could be ♯P-hard for classical computing. Here we consider this process within the simplest possible model of a BEC trap – the box with the periodic boundary conditions. |
William Shannon ; Vitaly Kocharovsky; |
| 153 | Optically Levitated Single Droplet Study of The Sea Spray Aerosol That Contains The Mercuric Halides Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this study, we used optical trapping-Raman spectroscopy to study the single droplet of the sea spray aerosol that contains Hg(II) halides (HgX 2, X=Cl, Br). |
YUKAI AI ; Chuji Wang ; Gorden Videen ; Yongle Pan; |
| 154 | Atom Interferometer Driven By A Picosecond Frequency Comb Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: For decades, this technique enabled the measurement, with high precision, of gravity (acceleration, gradient, space curvature and gravitational constant) and the atomic recoil. |
Saïda Guellati-Khélifa; |
| 155 | Stationary Inflection Point Based Hypersensitive Sensors with Enhanced Signal-to-Noise Ratio Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We analyze the transport properties of nonlinear periodic structures exhibiting SIPs and their use in the realization of sublinear sensors, where the response of the reflectance is sublinear with respect to frequency detuning. |
Serena Landers ; William Tuxbury ; Ulrich Kuhl ; Tsampikos Kottos; |
| 156 | Non-contact Friction in Near-field Optomechanical Transducers Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we study the interaction between a nano-mechanical resonator and a photonic crystal (PhC) cavity in a monolithic optomechanical system. |
Amirali Arabmoheghi ; Alessio Zicoschi ; Mohammadjafar Bereyhi ; Nils Johan Engelsen ; Tobias Kippenberg; |
| 157 | State-Insensitive Trapping of Alkaline-earth Atoms in A Nanofiber-based Optical Dipole Trap Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Employing a two-color, double magic-wavelength trapping scheme, we realize state-insensitive trapping of the atoms for the kilohertz-wide 1S 0− 3P 1,|m|=1 intercombination transition, which we verify by performing high-resolution spectroscopy for an atom-surface distance of about 300 nm. |
Julio Barreiro ; Grady Kestler ; Khang Ton ; Dmytro Filin ; Charles Cheung ; Philipp Schneeweiss ; Thomas Hoinkes ; J. Volz ; Marianna Safronova ; Arno Rauschenbeutel; |
| 158 | Application of Optimal Control to Improve Shaking Protocols for Quantum Accelerometers Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk we discuss the common approach derived from Mach-Zehnder interferometry and present two optimal control strategies to push the sensitivity. |
Lennart Maximilian Seifert ; Michael Perlin ; Pranav Gokhale ; Victor Colussi ; Frederic Chong; |
| 159 | Coherent Manipulation of Nuclear Spins in The Strong Driving Regime Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We discuss the implications of driving spins in a regime where the driving strength is comparable to the spin-state splitting, i.e., where the rotating wave is no longer a valid approximation. We present a simple recipe to optimize pulse fidelity in this regime, considering various driving field angles. |
Amit Finkler ; Dan Yudilevich ; Alon Salhov ; Ido Schaefer ; Konstantin Herb ; Alex Retzker; |
| 160 | Stress and Field Sensing Behavior of The NV Center in A Nanodiamond: First Principles Density Functional Theory and Experimental Approach Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we present computational and analytical modeling of electronic structures of an NV center under the application of stress. |
Hari Paudel ; Yuhua Duan ; Gary Lander ; Scott Crawford; |
| 161 | Towards Faster and Quantum-noise Limited Maser Materials; Developments in Miniaturising and Searching for New Organic Maser Gain Media Related Papers Related Patents Related Grants Related Venues Related Experts View Abstract: There has been rapid development for masers at room temperature, the microwave analogue of lasers, where their ability to amplify the weakest electrical signals and superb … |
Wern Ng ; Daan Arroo ; Max Attwood ; Mark Oxborrow ; Neil Alford; |
| 162 | Sub-ppm Nanomechanical Absorption Spectroscopy of Silicon Nitride Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here we show that nanomechanical frequency spectroscopy can be used to characterize the absorption of a dielectric thin film at the parts-per-million level, and use it to characterize the absorption of stoichiometric silicon nitride (Si3N4), a ubiquitous low-loss optomechanical material. |
Andrew Land ; Dalziel Wilson ; Mitul Dey Chowdhury ; Aman Agrawal; |
| 163 | Polynomial Generated Bosonic Code for Environment-Assisted Quantum Transduction Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This work introduces a novel family of bosonic codes generated by polynomials, capable of transmitting quantum information with high fidelity under an arbitrary weak inter-mode coupling constant. |
Bikun Li ; Zhaoyou Wang ; Liang Jiang; |
| 164 | Using Feynman Diagrams to Analytically Compute Higher Order Quantum Corrections to Atom Interferometer Phase Shifts Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: These measurements would offer insight into the connection between quantum mechanics and gravity and reveal a novel source of systematic error. We introduce a Feynman diagram based approach to analytically computing the phase shift in an atom interferometer which incorporates these higher-order quantum corrections. |
Jonah Glick ; Tim Kovachy; |
| 165 | Harnessing Quantumness of States Using Discrete Wigner Functions and Protecting It Using Weak Measurement from Non-Markovian Quantum Noise Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We study the quantum correlations, maximal fidelity, and fidelity deviation of the two-qubit negative quantum states developed using DWFs with (without) WM and QMR. |
Jai Lalita .; |
| 166 | Revealing Optical Bistability and Multistability in A Cavity Including Two Coupled Quantum Wells Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We investigate the bistability and multistability within a cavity containing two coupled quantum wells pumped by a squeezed light. |
hichem Eleuch ; Houssem Jabri; |
| 167 | Emergent System-reservoir Methods for Broadband Nonlinear Quantum Optics: A Case Study on Cascaded Chi(2) Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we introduce a perturbative framework in which to factor out effective “reservoir” degrees of freedom and establish concise effective models for the remaining system. |
Chris Gustin ; Ryotatsu Yanagimoto ; Edwin Ng ; Tatsuhiro Onodera ; Hideo Mabuchi; |
| 168 | Quantum Walks of Two-Photon Wannier States in Nonlinear Waveguide Lattices with Floquet-Modulated Coupling Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Our work shows that the transport of Wannier states through nonlinear waveguide lattices with Floquet-modulated coupling exhibits uniquely different features compared to both classical transport through nonlinear lattices and two-photon quantum transport through constant-coupling and linear lattices. |
Miles Mackenzie ; Avik Dutt ; Carlos Ríos Ocampo ; Niloy Acharjee ; Samarth Sriram ; Nathaniel Fried; |
| 169 | Nonlinear Quantum Photonics from Reflecting Coherent Light Off A Tin-Vacancy Center in A Diamond Waveguide Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here we present our work on SnV centers integrated in nanophotonic diamond waveguides. |
Matteo Pasini ; Tim Turan ; Nina Codreanu ; Adrià Riera Moral ; Christian Primavera ; Lorenzo De Santis ; Hans Beukers ; Christopher Waas ; Julia Brevoord ; Johannes Borregaard ; Ronald Hanson; |
| 170 | Collective and Nonlinear Dynamics in Spatially Structured and Spectrally Inhomogeneous Emitter Ensembles Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here we advance the theory of and shed light on the optical response and dynamics of spatially ordered systems of solid-state emitters featuring spectral inhomogeneity. |
Lewis Ruks ; William Munro; |
| 171 | Fully Non-Linear Neuromorphic Computing with Linear Wave Scattering Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we present a scheme for a neuromorphic system that relies on linear wave scattering and yet achieves non-linear processing with a high expressivity [1]. |
Clara Wanjura ; Florian Marquardt; |
| 172 | Quantum Multiphoton Rabi Oscillations in Waveguide QED Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: A key facet of photonic technologies revolves around the scattering of coherent light across a two-level system which leads to Rabi oscillations in the semiclassical, strong-field limit. We analytically investigate the scattering dynamics of multiphoton Fock states as they encounter a two-level emitter and examine both the weak-field and strong-field regimes that exhibit widely disparate dynamical features. |
Debsuvra Mukhopadhyay ; Jung-Tsung Shen; |
| 173 | Purcell Enhanced Emission and Saturable Absorption of Cavity-coupled CsPbBr3 Quantum Dots Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We integrate zwitterionic CsPbBr3 quantum dots to a polarization degenerate Bullseye cavity mode exhibiting higher Q than reported before. |
Purbita Purkayastha ; Yuxi Jiang ; Changmin Lee ; Shaun Gallagher ; Jessica Kline ; David Ginger ; Edo Waks; |
| 174 | Alkaline-earth Atom Arrays: from Quantum-enhanced Optical Clocks to Programmable Hubbard Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this way, we can not only engineer entangled many-body states of immobile particles, but also study the dynamics of itinerant and interacting particles. I will present our work on both of these frontiers in this talk. |
Nelson Darkwah Oppong; |
| 175 | Two-mode Squeezing and Entanglement Dynamics for Power-law Interactions in Two-dimensional Bi-layer Spin ½ System Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We study the non-equilibrium dynamics of a quantum spin ½ XXZ model realized in a two-dimensional bi-layer system, with couplings mediated by inverse power-law interactions, falling off with distance r as 1/r a. Starting from an initial state of spins with opposite magnetization in the two layers we find exponential growth of correlated pairs of excitations. |
Arman Duha ; Thomas Bilitewski; |
| 176 | Experimental Realizations of Bosonic Dipolar Quantum Walks in Optical Lattice Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, I will discuss our recent demonstration of dipolar quantum walks using Rb atoms in optical lattice. |
Byungmin Kang ; Sooshin Kim ; Perrin Segura ; Yanfei Li ; Ethan Lake ; Brice Bakkali-Hassani ; Markus Greiner; |
| 177 | Strong Spin-Motion Coupling in The Ultrafast Quantum Many-body Dynamics of Rydberg Atoms in A Mott-insulator Lattice Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Our work provides a new direction for exploring the dynamics of strongly correlated quantum system by including the motional degree of freedom into the Rydberg simulation toolbox. |
Sylvain DE LESELEUC ; Vineet Bharti ; Seiji Sugawa ; Masaya Kunimi ; Vikas Singh Chauhan ; Tirumalasetty Panduranga Mahesh ; Michiteru Mizoguchi ; Takuya Matsubara ; Takafumi Tomita ; Kenji Ohmori; |
| 178 | Unraveling Hydrodynamization with Bragg-scattering Pulses in 1D Bose Gases Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we explore the conditions for hydrodynamization with different types of pulse sequences experimentally and theoretically (in the Tonks-Girardeau limit). |
Yicheng Zhang ; Yuan Le ; David S. Weiss ; Marcos Rigol; |
| 179 | Quantum and Classical Coarsening and Their Interplay with The Kibble-Zurek Mechanism Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: While the quantum Kibble-Zurek mechanism elucidates part of these dynamics, the subsequent and significant coarsening processes lie beyond its scope. Here, we develop a universal description of such coarsening dynamics—and their interplay with the Kibble-Zurek mechanism—in terms of scaling theories. |
Rhine Samajdar ; David Huse; |
| 180 | Proposal for The Experimental Detection of Many-body Quantum Chaos Via Dynamics Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: However, the spectrum is not easily accessible to current experiments with cold atoms and ion traps, which are designed to investigate many-body quantum dynamics. For these experiments, we propose a way to detect many-body quantum chaos directly through the dynamics. |
Patrick Pinney ; Adway Kumar Das ; E. Jonathan Torres-Herrera ; Lea F. Santos; |
| 181 | Proposal for Realizing Quantum Spin Models with Dzyaloshinskii-Moriya Interaction Using Rydberg Atoms Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we propose a method for realizing highly controllable quantum spin models with Dzyaloshinskii-Moriya interaction (DMI) in Rydberg atom quantum simulators [4]. |
Masaya Kunimi ; Takafumi Tomita ; Hosho Katsura ; Yusuke Kato; |
| 182 | Bose Stimulated Dynamics of An Atom-molecule Superfluid Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: The recent observations [1,2] of a stable molecular condensate emerging from a condensate of bosonic atoms and related “super-chemical” dynamics have raised an intriguing set of questions. Here we provide a microscopic theory of these phenomena showing one essential feature of these experiments is the extreme narrowness of the Feshbach resonance at B=19.849G in 133Cs. |
Ke Wang ; Zhiqiang Wang ; Zhendong Zhang ; Shu Nagata ; Cheng Chin ; Kathryn Levin; |
| 183 | Controlled Flow of Excitations and Source-to-drain Transport in Circuits of Rydberg Atoms Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Attaching leads to a ring circuit, we study the source-to-drain transport through the system. |
Luigi Amico ; Davide Rossini ; Francesco Perciavalle ; Tobias Haug ; Oliver Morsch; |
| 184 | Quantum Quenches in The Two-Component Bose-Hubbard Model Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Cold atoms in optical lattices can be used as quantum simulators to study the temporal evolution of quantum systems, which has lead to increasing interest in the out-of-equilibrium dynamics of multi-component bosons in optical lattices. We study the Bose-Hubbard model for two-component bosons using a strong-coupling approach within the closed time path formalism and develop an effective theory for the action of this problem. |
Florian Baer ; Malcolm Kennett; |
| 185 | Cavity Quantum Electrodynamics with Tin Vacancy Centers in Diamond Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we discuss characterization of diamond nanophotonic cavities with enhanced and tunable outcoupling achieved by utilizing silicon carbide waveguide probes. |
Hope Lee ; Hannah Kleidermacher ; Abigail Stein ; Jakob Grzesik ; Jean-Michel Borit ; Daniil Lukin ; Dominic Catanzaro ; Jelena Vuckovic; |
| 186 | Optimisation of Nitrogen-Vacancy Spin Ensembles for Room-Temperature Diamond Masers Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here we discuss different strategies for relaxing the homogeneity requirement for the magnetic field by optimising the diamond and characterise the performance of diamond masers employing customised gain media in which the concentrations of 13C nuclei and nitrogen-vacancy spins are varied. |
Daan Arroo ; Wern Ng ; Yongqiang Wen ; Philip Diggle ; Neil Alford; |
| 187 | Selective Mode Suppression in A Levitated Diamagnetic Resonator Coupled to A Microwave Cavity Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present a new way to achieve selective mode dampening in levitated diamagnetic resonators through the control of eddy currents. |
Harold Hart ; Logan Adrian ; Jay Sharping; |
| 188 | Quantum Spin Control and Fast Rotation of Levitated Nanodiamonds in High Vacuum Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Impressively, we drive a nanodiamond to rotate up to 20 MHz (1.2 × 10 9 rpm), surpassing NV center electron spin dephasing rates. |
Yuanbin Jin ; Kunhong Shen ; Peng Ju ; Xingyu Gao ; Chong Zu ; Alejandro Grine ; Tongcang Li; |
| 189 | Casimir Nanoparticle Levitation in Vacuum with Broadband Perfect Magnetic Conductor Metamaterials Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We show sub-micron nanoparticle levitation in vacuum only based on the design of a broadband metamaterial perfect magnetic conductor surface, where the Casimir force is mostly given by the (quantum) zero-point contribution and compensates the nanoparticle’s weight. |
Adrian Rubio Lopez ; Vincenzo Giannini; |
| 190 | A Nanomechanical Qubit in A Carbon Nanotube Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: The coherence may be enhanced by gating the nanotube using a multigate architecture [3] and coupling the mechanical vibrations to an embedded double quantum dot charge qubit. We present measurements of this charge qubit and the coupling of mechanical vibrations to it. |
Christoffer Moller ; Roger Tormo Queralt ; Victor Roman ; Chandan Samanta ; Sergio De Bonis ; Fabio Pistolesi ; David Czaplewski ; Andrew Cleland ; Adrian Bachtold; |
| 191 | A Collection of Qubits Coupled to An Optomechanical Environment in The Weakly Interacting Regime Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Specifically, we report our theoretical progress in understanding interplay between qubit-phonon and phonon-photon coupling. |
Jugal Talukdar ; Nicolas Dirnegger ; Joseph Peetz ; Ze-Xun Lin ; Prineha Narang; |
| 192 | Room-temperature Quantum Optomechanics Using Engineered Mechanical Resonators Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, I will explain how we recently reached the quantum regime of cavity optomechanics at room temperature using engineered mechanical resonators in a “membrane-in-the-middle” system. |
Guanhao Huang ; Alberto Beccari ; Nils Johan Engelsen ; Tobias Kippenberg; |
| 193 | Triply Resonant Millimeter Scale Cavity Electro-Optic Transducers Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We will report progress toward laser cooling of the microwave cavity, and the transduction of thermal photons at room temperature. |
Mihir Khanna ; YANG HU ; Thomas Purdy; |
| 194 | Environment-assisted Quantum Transduction with GKP States Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: For quantum transduction between two bosonic modes, the direct transduction without shared entanglement or classical communication typically requires a conversion efficiency exceeding 0.5 which is challenging in current experiments. We propose the environment-assisted quantum transduction scheme to overcome this stringent requirement. |
Zhaoyou Wang ; Liang Jiang; |
| 195 | Artificial Discovery of Coupled-mode Circuits with Desired Scattering Behavior Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Usually, the design of such a system is handcrafted by an experienced scientist. In our work, we develop a discovery algorithm that automates this process. |
Jonas Landgraf ; Vittorio Peano ; Florian Marquardt; |
| 196 | Tunable Phonon-magnon Polaritons at Around 1.0 THz Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we show cavity-mediated magnon-phonon coupling at about 1.0 THz. |
Marcin Bialek ; Kamil Stelmaszczyk ; Dorota Szwagierczak ; Beata Synkiewicz-Musialska ; Jan Kulawik ; Norbert Pałka ; Wojciech Knap; |
| 197 | Coherent Nonlinear Transfer from Matter to Light By Using Anharmonic Semiconductor Dipoles Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We propose a cavity quantum electrodynamics (QED) approach to transfer coherent material anharmonicity to a photonic mode in the THz regime, which generates stationary power-dependent nonlinear shifts. |
Johan Triana ; Mauricio Arias ; Aldo Delgado ; Felipe Herrera; |
| 198 | Confining Bulk Acoustic Modes By Planar Thin-Film Fabrication Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we present a very simple planar fabrication process in a thin film to realize strong lateral confinement of the BAW modes. |
Chaoyang Ti ; Joseph Petrullo ; Xinhao Li ; Yizhong Huang ; Dafei Jin ; Xu Han; |
| 199 | Interferometry of Non-Abelian Charges of Band Nodes in The Euler Class Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: The ability of these band nodes to annihilate pairwise is path dependent, since by braiding nodes in adjacent gaps the sign of the charges can be changed. Here, we theoretically present and numerically confirm two methods to experimentally demonstrate this non-Abelian braiding process in ultracold atomic systems. |
Oliver Breach ; Nur Ünal ; Robert-Jan Slager; |
| 200 | High-Q Resonances with Arbitrary Eigenpolarizations Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Our proposal would extend the understanding of Fano resonance-based light-matter interactions and benefit the exploration of surface-emitting lasers. |
Chuanlin Li ; Wenhao Wang ; Aobo Ren ; Jiang Wu ; Zhiming Wang; |
| 201 | Resonant Low Energy Electron Capture and Fragmentation Pathways of Anisole Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: A DEA study of anisole can also help expand the data base on the electron-induced cleavage of the stable benzene ring, which some previous studies have shown is possible, though each study provides different possible ion fragments that can be formed from the benzene ring. |
Giorgi Kharchilava ; Dipayan Chakraborty ; Sylwia Ptasinska; |
| 202 | Levitating Single Particles Using Optical Trapping to Measure Circular Intensity Differential Scattering from Single Aerosol Particles for Detection and Identification of Bioaerosols Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we used optical trapping to levitate single particles in a custom-designed elliptical reflector. |
Haifa Alali ; Yong-Le Pan ; Gorden Videen ; Chuji Wang; |
| 203 | A First-principles Analysis of The Role of Biaxial Strains on Cubic FAPbCl3 Perovskites Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This study examined how bidirectional tensile and compressive strains together with the spin-orbit coupling (SOC) impact the structural, electronic, optical properties, and electronic properties of formamidinium lead chloride (FAPbCl 3) perovskites via a first-principles density-functional theory (DFT). |
Farjana Mahajabin; |
| 204 | Indirect Cooling of Trapped Ions Through Phonon Rapid Adiabatic Passage Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: However, these techniques are hampered by the voltage filters needed to suppress high frequency noise, and are relatively sensitive to drifts in mode frequency and drive amplitude. Here we demonstrate a technique that overcomes these limitations, which we call phonon rapid adiabatic passage (phRAP). |
R. Tyler Sutherland ; Maya Fabrikant ; Ivaylo Madjarov ; Paul Lauria ; William Burton ; Christopher Gilbreth; |
| 205 | Quantum Control, Transport and Electric Field Noise Sensing in A Micro Fabricated Penning Trap Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Using in-sequence switching, we demonstrate the ability to trap ions while isolating the electrodes from all voltage sources to minimise the effects of any technical noise. Our work characterizes a range of elements of a unit-cell for a Penning trap QCCD architecture for scalable quantum computing and simulation and highlights its use as an electric field noise sensor. |
Pavel Hrmo ; Jonathan Home ; Shreyans Jain ; Martin Stadler ; Celeste Torkzaban ; Robin Oswald ; Christopher Axline ; Amado Bautista-Salvador ; Christian Ospelkaus ; Daniel Kienzler ; Tobias Saegesser; |
| 206 | 137Ba+ Cooling and Gates in A Grid-style Trap Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we present high fidelity laser-enabled single qubit and two qubit Mølmer-Sørensen gates. |
James Hostetter ; Lucas Sletten ; Andrew Schaffer ; Matthew Cich ; Grahame Vittorini; |
| 207 | Novel Ion Trap Junction Design for Transporting Qubits in A 2D Array Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we propose and simulate a novel two-layer junction design incorporating two perpendicularly rotoreflected linear ion traps. |
Gavin Nop ; Jonathan Smith ; Daniel Stick ; Durga Paudyal; |
| 208 | Progress Toward Using 137Ba+ Qubits in A Quantinuum Quantum Computer Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: However, the use of ytterbium poses practical scaling challenges as gate operations require high-power ultraviolet laser light and high measurement fidelities are difficult to achieve. Here we will describe our efforts in overcoming these challenges by moving to qubits based on barium-137 ions. |
Adam Reed ; Riley Ancona ; David Francois ; John Gaebler ; Colin Kennedy ; Anthony Ransford ; Tucker Sprenkle ; Justin Bohnet; |
| 209 | Requirements for Trapped-ion Based Blind Quantumcomputing with A Measurement-only Client Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We introduce a numerical model for trapped-ion quantum devices in NetSquid, a discrete-event simulator for quantum networks. |
Janice van Dam ; Guus Avis ; Joshua Slater ; Stephanie Wehner; |
| 210 | An Architecture for Distributed Fault Tolerant Quantum Computing Over A Trapped-ion Quantum Network with Finite Resources Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We propose an architecture based on dual-species trapped-ion (DSTI) nodes for universal fault-tolerant quantum computation in the presence of loss errors in photonic interfacing and Pauli noise in the trapped ion qubits, using a hybrid approach that combines intra-nodal gate-based and inter-nodal measurement-based implementations. |
Nitish Chandra ; Saikat Guha ; Kaushik Seshadreesan; |
| 211 | Sensing Parity-violation Effects in Chiral Molecular Ions: Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In the presentation, we will report integrated theoretical efforts to guide the potential experimental endeavors for sensing PV effects with the trapped molecular ion experiment technique[2]. |
Xuecheng Tao ; Anastasia Pipi ; Arianna Wu ; David Leibrandt ; Prineha Narang; |
| 212 | Robust and Deterministic Preparation of Bosonic Logical States in A Trapped Ion Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we demonstrate the robust, high-fidelity and measurement-free preparation of arbitrary targeted bosonic states in a trapped ion. |
Ting Rei Tan ; Vassili Matsos ; Christophe Valahu ; Tomas Navickas ; Arjun Rao ; Maverick Millican ; Michael Biercuk; |
| 213 | Low Excitation Transport of Ba-Sr Crystals Through An RF Paul Trap X-junction Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: However, their large mass imbalance poses potential challenges, particularly in transporting Ba-Sr pairs through junctions in two-dimensional surface RF Paul traps. Here, we demonstrate transport of Ba-Sr crystals through such an X-junction and measure that, at 2 m/s, the transport induces an increase in thermal occupation of 0.035 +- 0.005 quanta per round trip in both the axial in-phase and out-of-phase modes with insignificant coherent excitation. |
James Hostetter ; Lucas Sletten ; Andrew Schaffer ; Matthew Cich ; Grahame Vittorini ; Curtis Volin ; William Burton; |
| 214 | Quantum Order-by-disorder in The Triangular Lattice Long-range Ising Model Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Using the density matrix renormalization group (DMRG), we numerically study the lifting of the extensive classical ground state degeneracy via small quantum fluctuations. |
Avi Kaplan-Lipkin ; Brenden Roberts ; Norman Yao; |
| 215 | Integrated Control Stack for Optical Qubit-based Quantum Computing and Networks Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present Qblox’s qubit agnostic and integrated solution for control and readout of various optical qubit types, including defects in diamond, trapped ions, and quantum memory systems. |
Folkert De Vries ; Tijmen van Eijk ; Jeroen van Straten ; Anass Wifak ; Mafalda Jotta Garcia ; Marijn Tiggelman ; Damaz de Jong ; Jordy Gloudemans ; Wouter Vlothuizen ; Jules van Oven ; Cornelis Christiaan Bultink; |
| 216 | Engineering and Understand Atomic Topological Matter with Non-Hermiticity Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we report the realization of a two-dimensional (2D) non-Hermitian topological band with ultracold fermions by combining spin-orbit-coupled optical lattices with tunable dissipation. |
Gyu-Boong Jo; |
| 217 | Non-Hermitian Gauged Two-dimensional Reconfigurable Laser Arrays Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here we experimentally demonstrate the topological skin effect and boundary sensitivity, induced by the imaginary gauge field in a two-dimensional laser array, which are fundamentally different from any Hermitian topological effects and intrinsic to open systems. |
Zihe Gao ; Xingdu Qiao ; Mingsen Pan ; Shuang Wu ; Jieun Yim ; Kaiyuan Chen ; Bikashkali Midya ; Li Ge ; Liang Feng; |
| 218 | Transport Effects in Non-Hermitian Topological Models Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we present a unifying analytical framework for identifying conditions for transport effects such as reflectionless and transparent transport, lasing, and coherent perfect absorption in topological non-Hermitian nonreciprocal systems. |
Hamed Ghaemidizicheh; |
| 219 | What Are The Building Blocks of Photonic Band Structures? Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Inspired by this approach, we present a general framework which uses real-space invariants to understand how photonic band structures can be built from localized orbitals for any space group. |
Vaibhav Gupta ; Yoonseok Hwang ; Chiara Devescovi ; Antonio Morales-Pérez ; Juan Luis Mañes ; Aitzol García-Etxarri ; Maia Vergniory ; Barry Bradlyn; |
| 220 | Interaction-induced Charge Pumping in A Topological Many-body System Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we report on the a joint experimental-theory study of interaction-induced pumping in a two-component Rice-Mele Hubbard model [1]. |
Fabian Heidrich-Meisner ; Konrad Viebahn ; Anne-Sophie Walter ; Eric Bertok ; Zijie Zhu ; Marius Gachter ; Armando Aligia ; Tilman Esslinger; |
| 221 | Floquet Topological Phase Transitions Induced By Uncorrelated or Correlated Disorder Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this study, we investigate a model closely related to a two-dimensional Floquet system that has been realized in experiments. |
Jun-Hui Zheng ; Arijit Dutta ; Monika Aidelsburger ; Walter Hofstetter; |
| 222 | Oral: Exceptional Degeneracies and Their Non-Abelian Topology in Non-Hermitian Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this presentation, we provide a topological classification of isolated exceptional degeneracies based on homotopy theory. |
Haiping Hu ; Shu Chen ; Cuixian Guo ; Kun Ding; |
| 223 | Hidden Order in Fractional Chern Insulators Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, building upon the recent advances in preparing few-particle fractional Chern insulators using ultracold atoms and photons, we propose a realistic scheme for detecting the hidden off-diagonal long-range order (HODLRO) characterizing Laughlin states. |
Fabian Pauw ; Felix Palm ; Annabelle Bohrdt ; Sebastian Paeckel ; Fabian Grusdt; |
| 224 | Topological Electromagnetic Waves in Dispersive and Lossy Plasma Crystals Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We develop a numerical framework to address the complex material dispersion arising from the plasma medium and external magnetic fields and identify Chern insulator phases that are experimentally achievable. |
Chen Qian ; Yue Jiang ; Jicheng Jin ; Thomas Christensen ; Marin Soljacic ; Alexander Kildishev ; Bo Zhen; |
| 225 | Entanglement and Topology in Su-Schrieffer-Heeger Cavity Quantum Electrodynamics Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This work provides a framework for characterizing novel equilibrium phenomena in topological cavity materials. |
Luiz Santos ; Daniel Shaffer ; Martin Claassen ; Ajit Srivastava; |
| 226 | Topological Density Correlations in A Fermi Gas Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we establish a universal structure of a D + 1 point equal time density correlation function that reflects the Fermi sea topology in D spatial dimensions [1]. |
Pok Man Tam ; Charles Kane; |
| 227 | Band Strcucture, Symmetry and Homotopy Description of Non-Hermitian Topology Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: To describe the band structures of non-Hermitian systems, we consider the notions of non-Hermitian band gaps and separation gaps. With these concepts, we provide a unified and systematic classification of both gapped and nodal systems in the presence of physically relevant parity-time (PT ) and pseudo-Hermitian symmetries using homotopy theory. |
Kang Yang ; Zhi Li ; J Lukas K König ; lukas Rødland ; Marcus Stålhammar ; Emil Bergholtz; |
| 228 | Topologically Protected Negative Entanglement Entropy Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we will explore two topological non-Hermitian models wherein exceptional points manifest within the energy bands of topological edge states. |
Wen-Tan Xue ; Ching Hua Lee; |
| 229 | Interacting Dynamical Anderson Metal-Insulator Transition in Kicked Bose-Einstein Condensates: The Effect of Trapping Potentials Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we present our mean field numerical study of the kicked BEC with three types of potentials: Gaussian, ring, and box. |
Mengxin Du ; Chuanwei Zhang; |
| 230 | SU(3) Discrete Truncated Wigner Method for Dissipative Dynamics of Strongly Interacting Bose Gases in Optical Lattices Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Recently, optical lattice systems loaded with ultracold gases have been utilized as analog quantum simulators for open quantum many-body systems, where the strength of dissipation can be controlled via external parameters. Towards establishing a numerical tool to analyze outputs from such quantum simulators for open systems, here we generalize and utilize a semiclassical SU(3) discrete truncated Wigner method to describe real time evolution of a three-dimensional dissipative Bose-Hubbard model in the presence of local two body losses. |
Kazuma Nagao ; Ippei Danshita ; Seiji Yunoki; |
| 231 | Coherent Control of Localization in Driven Quasicrystals and Integer Quantum Hall Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We elucidate the mapping between this system and a two-dimensional integer quantum Hall system, in which our modulation protocol maps to light with fully tunable polarization. We discuss two possibilities illuminated by this higher-dimensional mapping: engineering a thermodynamically stable critical phase hosting multifractal wave functions, and modifying topological properties. |
Yifei Bai ; Peter Dotti ; Toshihiko Shimasaki ; Anna Dardia ; David Weld; |
| 232 | Physical Properties of The Hat Aperiodic Monotile: Graphene-like Features, Chirality and Zero-modes Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work we study spectral and transport properties of a tight-binding model defined on the Hat. |
Selma Franca ; Justin Schirmann ; Felix Flicker ; Adolfo Grushin; |
| 233 | Localization and Reentrant Delocalization Transitions in One-dimensional Photonic Quasicrystals Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We theoretically predict and experimentally demonstrate that the localization of light in one-dimensional photonic quasicrystals is followed by a reentrant delocalization transition when the quasiperiodic modulation strength is increased well beyond the localized regime. |
Sachin Vaidya ; Christina Jörg ; Kyle Linn ; Megan Goh ; Mikael Rechtsman; |
| 234 | Coherent Wave Propagation in Spin-orbit Coupled Disordered Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We investigate the time evolution of the momentum-space particle density distribution in disordered systems with spin-orbit coupling (SOC). |
Masataka Kakoi ; Keith Slevin; |
| 235 | Exploring Dissipative Effects in Molecular Exciton-Polariton Transport Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we demonstrate how various dissipative effects, such as exciton-phonon coupling and cavity loss, impact the transport properties of exciton-polaritons. |
Xiong Kai Benjamin Chng ; M. Elious Mondal ; Pengfei Huo; |
| 236 | Floquet-engineered Nonlinearities and Controllable Pair-hopping Processes: From Optical Kerr Cavities to Correlated Quantum Matter Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This work explores the possibility of creating and controlling unconventional nonlinearities by periodic driving, in a broad class of systems described by the nonlinear Schrödinger equation (NLSE). |
Nathan Goldman ; Oriana Diessel ; Luca Barbiero ; Maximilian Prüfer ; Marco Fedele Di Liberto ; Lucila Peralta Gavensky; |
| 237 | Loss-induced Universal One-way Transport in Periodically Driven Systems Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we show that a periodically driven Aubry-André-Harper model with imbalanced onsite gain/loss supports universal one-way transport that is immune to impurities and independent of initial excitations. |
Chang Shu ; Kai Zhang ; Kai Sun; |
| 238 | Quantum Description of Limit-cycle Dynamics Generated By A 2-mode Josephson Junction Circuit Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We explore the dynamics of a driven-dissipative circuit where a Josephson junction is capacitively coupled to a linear oscillator. |
Elif Cuce ; Saeed Khan ; Hakan Tureci; |
| 239 | Topological Synchronization of Fractionalized Spins Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: The gapped symmetric phase of the Affleck-Kennedy-Lieb-Tasaki (AKLT) model exhibits fractionalized spins at the ends of an open chain. We show that breaking SU(2) symmetry and applying a global spin-lowering dissipator achieves synchronization of these fractionalized spins. |
Christopher Wächtler ; Joel Moore; |
| 240 | Universal Collective Quantum Dephasing Due to Electromagnetic Fluctuations Near Material Interfaces Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we present a theory applicable to spin qubits’ CD dynamics induced by EM fluctuations near general MIs. |
Wenbo Sun ; Adrian Rubio Lopez ; Zubin Jacob; |
| 241 | New Results in 1D Repulsive Hubbard Model: Quantum Liquid, Criticality and Transport Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we will present new results of one-dimensional repulsive Hubbard model in the presence of a magnetic field. |
Xiwen Guan ; Han Pu ; Jiajia Luo; |
| 242 | Strongly Interacting 1D Quantum Gases Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: I will present a family of exact solutions for strongly interacting 1D quantum gases in arbitrary external potential, valid for bosons, multicomponent fermions and mixtures. |
Anna Minguzzi; |
| 243 | Out-of-equilibrium 1D Bose Gases and Generalized Hydrodynamics Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We will describe experiments with quenched 1D Bose gases that validate GHD. |
David S. Weiss; |
| 244 | Analysis of Spin Lifetime and Optical Coherence Time Mechanisms in Erbium-Doped Fiber (EDF) Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This research explores the spin lifetime and optical coherence time mechanisms in EDF, with a particular focus on understanding the Two-Level System (TLS) interaction in varying magnetic fields and temperatures. |
Mahdi Bornadel ; Sara Shafiei Alavijeh ; Farhad Rasekh ; Nasser Gohari Kamel ; Faezeh Kimiaee Asadi ; Erhan Saglamyurek ; Daniel Oblak ; Christoph Simon; |
| 245 | Technologies for Quantum Routing Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In addition, various approaches to entanglement sources, quantum processors, and other quantum network infrastructure may not be directly compatible, therefore requiring one or more transduction techniques to interconnect otherwise disparate devices. We present progress on several approaches to these challenges, including frequency shifting for transduction and quantum wavelength division multiplexing, polarization-qubit-preserving electro-optic switching, and ultrafast all-optical switching. |
Benjamin Nussbaum ; Ujaan Purakayastha ; Brian Petro ; Leo Oshiro ; Jerzy Szuniewicz ; John Floyd ; Filip Sosnicki ; Michal Karpinski ; Paul Kwiat; |
| 246 | Isotope Engineering for Spin Defects in Hexagonal Boron Nitride Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Spin defects in layered van der Waals materials, such as hexagonal boron nitride (hBN), are increasingly gaining attention for their potential in quantum technological applications. In this study, we employ isotope engineering to notably enhance the coherence properties of these embedded spin defects. |
Xinyi Du ; Ruotian Gong ; Eli Janzen ; Vincent Liu ; Zhongyuan Liu ; Guanghui He ; Bingtian Ye ; Tongcang Li ; Norman Yao ; James Edgar ; James Edgar ; Erik Henriksen ; Chong Zu; |
| 247 | Engineering Twisting Dynamics in A Solid-state Spin Ensemble Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We show a crucial step toward interaction-enhanced sensing in the solid state by engineering one and two-axis twisting dynamics within a 2-dimensional layer of NV centers at room temperature. |
Leigh Martin ; Haoyang Gao ; Lillian Hughes ; Simon Meynell ; Nathaniel Leitao ; Hengyun Zhou ; Norman Yao ; Ania Jayich ; Hongkun Park ; Mikhail Lukin; |
| 248 | Ruggedized, Mode Hop Free, Frequency-Stabilized External Cavity Diode Laser (ECDL) for Quantum Information Science Applications Related Papers Related Patents Related Grants Related Venues Related Experts View Abstract: Frequency-stabilized, tunable external cavity diode lasers (ECDLs) are commonly used in many types of quantum systems such as sensors, clocks, and computers. Typical ECDLs are … |
Alex Whitmore ; Jason Sorger ; Eric Takeuchi ; Taylor Stathopoulos; |
| 249 | In Situ Observation of Rydberg Chemistry in A Coherent Solvent Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: The molecule thus must strongly decelerate in the medium, for which we propose a plausible mechanism. |
Sebastian Wüster ; Shivakant Tiwari ; Felix Engel ; Tilman Pfau ; Florian Meinert; |
| 250 | Gravitational Wave Analogues in Spin Nematics and Cold Atoms Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this talk, we show how spin nematic phases, realised in spinor condensates, can give access to linearised gravity, and in particular that their Goldstone modes are relativistically-dispersing massless spin-2 Bosons, mathematically-equivalent to gravitational waves. |
Nic Shannon ; Han Yan ; Rico Pohle ; Yutaka Akagi ; Leilee Chojnacki; |
| 251 | Fermion Pairs and Loners in The Attractive Hubbard Gas Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: The Hubbard model of attractively interacting fermions provides a paradigmatic setting for fermion pairing, featuring a crossover between Bose-Einstein condensation (BEC) of tightly bound pairs and Bardeen-Cooper-Schrieffer (BCS) superfluidity of long-range Cooper pairs, and a "pseudo-gap" region where pairs form already above the superfluid critical temperature. |
Martin Zwierlein; |
| 252 | Observation of Magnetic Polarons in A Triangular Hubbard Model with Kinetic Frustration Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: I present results from the Princeton group’s atomic triangular Fermi-Hubbard quantum simulator, which incorporates a bilayer imaging technique that allows us to access arbitrary n-point spin and charge correlation functions. |
Zoe Yan; |
| 253 | High Temperature Kinetic Magnetism in Triangular Lattices Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This talk will review kinetic magnetism for the Fermi-Hubbard models in triangular type lattices, including four- and six-legged triangular cylinders and a full two-dimensional triangular lattice. |
Eugene Demler; |
| 254 | Hole Pairing, Density Structure Formation and Pseudogap in The Doped 2D Fermi Hubbard Model Related Papers Related Patents Related Grants Related Venues Related Experts View Abstract: Quantum simulation using ultracold atoms and molecules has opened a new research field to probe quantum matter in- and out-of-equilibrium. In fermionic quantum matter, mixed … |
Immanuel Bloch ; Timon Hilker ; Dominik Bourgund ; Thomas Chalopin ; Sarah Hirthe ; Petar Bojovic ; Si Wang ; Titus Franz; |
| 255 | Quantum Astrometry Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: I will present a proof-of-principle experimental demonstration of a two-photon interferometer. |
Raphael Abrahao ; Paul Stankus ; Andrei Nomerotski ; Edoardo Charbon ; Michal Marcisovsky ; Claudio Bruschini ; Jesse Crawford ; Michael Keach ; Aaron Mueninghoff ; Julian Martinez-Rincon ; Stephen Vintskevich ; Jakub Jirsa ; Sergei Kulkov ; Ermanno Bernasconi ; Samuel Burri; |
| 256 | Quantum Frequency Combs with Path Identity for Quantum Remote Sensing Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Existing demonstrations are limited to tabletop experiments, and expanding the sensing range faces various roadblocks, including long-time quantum storage and photon loss and noise when transmitting quantum signals over long distances. We propose a novel quantum sensing framework that addresses these challenges using quantum frequency combs with path identity for remote sensing of signatures (“qCOMBPASS”). |
Diego Dalvit ; Tyler Volkoff ; Yunseok Choi ; Abul Azad ; Abul Azad ; Hou-tong Chen ; Peter Milonni ; Peter Milonni; |
| 257 | Purcell Enhanced Single T Centers in Silicon Nanophotonic Cavities Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we demonstrate single T centres in nanophotonic cavities as a platform for remote entanglement. |
Camille Bowness ; Leea Stott ; Nicholas Brunelle ; Adam Deabreu ; Ian Kennedy ; Moein Kazemi ; Michael Dobinson ; Melanie Gascoine ; Katarina Boos ; Michael Thewalt ; Daniel Higginbottom ; Stephanie Simmons; |
| 258 | Color Center LED Synthesis Toward Telecom Quantum Light Generation Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here we present progress toward developing electrically stimulated emission from single color centers as new sources of quantum light. |
Nikki Ebadollahi ; Joshua Pomeroy ; Vijin Kizhake Veetil ; Marcelo Davanco ; Pradeep Namboodiri ; Matthew Pelton; |
| 259 | Electron-Phonon Coupling of Mechanically Isolated Defect Centers in Hexagonal Boron Nitride Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: That leads to mechanical isolation of the defect centers orbitals [3]. Here, we present our most recent results towards understanding the origin of this mechanical decoupling. |
Michael Koch ; Vibhav Bharadwaj ; Alexander Kubanek; |
| 260 | Superradiance-assisted Photonic Fock State Generation and Their Quantum Dynamics Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we present an alternatively appealing solid-state approach employing superradiant atoms within a chiral waveguide, enabling the deterministic generation of traveling multi-photon Fock states. |
Qihang Liu ; Jung-Tsung Shen; |
| 261 | Energy Superpositions in Entangled Two-Photon Absorption Spectroscopy Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Motivated by these, in this work we investigate computationally the effect of energy quantum superpositions in the absorption of entangled photon pairs by molecular chromophores, where in addition to polarization uncertainty, the colors of the photon pairs are unknown as well. |
Martin Mosquera; |
| 262 | SEAQUE: A Polarization-entanglement Quantum Payload Related Papers Related Patents Related Grants Related Venues Related Experts View Abstract: Future quantum networks will rely on high-rate entanglement distribution across global scales. An alternative to fiber networks, which are limited in size due to exponential loss … |
Kelsey Ortiz ; Liam Ramsey ; Spencer Johnson ; Timur Javid ; Timur Javid ; Rick Eason ; Qi Lim ; Joanna Krynski ; Nigar Sultana ; Noura Bayat ; Josh Aller ; Bradley Slezak ; Daniel Suarez ; Subash Ghattadahalli ; Ankush Sharma ; Phil Battle ; Phil Battle ; Alex Ling ; Thomas Jennewein ; Michael Lembeck ; Paul Kwiat; |
| 263 | 12.6 DB Squeezed Light at 1550 Nm from A Bow-tie Cavity for Long-term High Duty Cycle Operation Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We demonstrate that through careful design and suitable control schemes, the bowtie cavity is capable of producing high squeezing levels with good temporal stability, which makes it suitable for post selection based continuous-variable quantum information protocols, cluster-state quantum computing, quantum metrology, and potentially gravitational wave detectors. |
Biveen Shajilal ; Oliver Thearle ; Aaron Tranter ; Elanor Huntington ; Yuerui Lu ; Syed Assad ; Ping Koy Lam ; Jiri Janousek; |
| 264 | Spin Control of Silicon-Vacancy Centers in Nanodiamonds Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we present our progress in characterizing and controlling spin qubits of SiVs in nanodiamonds at liquid Helium temperature for future application in quantum networks. |
Andreas Tangemann ; Marco Klotz ; Richard Waltrich ; Viatcheslav Agafonov ; Alexander Kubanek; |
| 265 | Resonant Squeezed Light from Photonic Cooper Pairs Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We present a nonperturbative theory for the time evolution of photonic Cooper pairs that treats interacting photons and phonons as a hybrid excitation, the Ramaniton. |
Sanker Timsina ; Taha Hammadia ; Sahar Gholami Milani ; Filomeno S. de Aguiar Júnior ; Alexandre Brolo ; Rogério de Sousa; |
| 266 | Plasmonic Enhancement of Strain Activated Room Temperature SPEs in Few-layer HBN Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we present an optimized platform for plasmonic-enhanced strain-induced hBN – SPEs supported by FDTD simulations and charge density calculations. |
Utkarsh Utkarsh ; Anuj Singh ; Anshuman Kumar; |
| 267 | Defect Induced Modifications in Optical Emission from Er3+ in Er2O3 Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here we report measurements of temperature dependent photoluminescence (TDPL) from Er 3+ in Er 2O 3 as a function of He+ ion irradiation. |
Hongrui Wu ; Adam Dodson ; Agham Posadas ; Prashant Padmanabhan ; Yongqiang Wang ; Benjamin Lawrie ; Hou-tong Chen ; Michael Titze ; Andrew O’Hara ; Anthony Hmelo ; Jimmy Davidson ; Alex Demkov ; Leonard Feldman ; Norman Tolk; |
| 268 | Surface Electric Noise Due to Drift-diffusion Charge Fluctuations Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we study the surface electric noise originating from fluctuating surface charges via diffusion-drift processes with finite charge carrier lifetime. |
Syed Hassan Abbas Bukhari ; Denis Candido; |
| 269 | Single Vortex Dynamics in Binary Bose-Einstein Condensates Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We study the phases of a binary system of Bose-Einstein condensates, with their dynamical wave functions modeled by a set of coupled, time-dependent Gross-Pitaevskii equations. |
Stephan Haas ; Ajay Srinivasan ; Aaron Wirthwein; |
| 270 | Vortex Motion in A Dipolar Supersolid Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We consider Bose-Einstein condensate of 164Dy atoms in a supersolid phase where the vortex is injected with a Laguerre-Gaussian light beam. |
Subrata Das ; Vito Scarola; |
| 271 | Harmonic Generation with Optical Vortex Beams Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this work, we consider high-order harmonic generation (HHG) of a helium gas exposed to an optical Bessel vortex beam. |
Trevor Walsh ; Mahmoud Asmar ; Nicolas Douguet; |
| 272 | Quantum Vortices of Strongly Interacting Photons Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: We report on the realization of quantum vortices of photons that result from a strong photon-photon interaction in a quantum nonlinear optical medium. |
Bankim Chandra Das ; Lee Drori ; Tomer ZOHAR ; Gal Winer ; Eilon Poem ; Alexander Poddubny ; Ofer Firstenberg; |
| 273 | Polarization-inverting Polariton Parametric Scattering in Birefringent CsPbBr3 Microcavities Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: In this study, we demonstrate the polarization-inverting parametric scattering among polariton inter-subbranch in CsPbBr 3 microcavities under non-resonant excitation conditions. |
Hyeon-Seo Choi ; Hyeonjong Jeong ; Taejin Lee ; Chang-Hee Cho; |
| 274 | Far Field Excitation of Polaritons in Photonic Hypercrystals of Van Der Waals Materials Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: This study presents a pioneering contribution to the field of polariton physics, focusing on the behavior of hyperbolic phonon polaritons (HPhPs) emerging from the coupling of crystal vibrations and light in biaxial van der Waals (vdW) materials. |
Nihar Ranjan Sahoo ; Anshuman Kumar; |
| 275 | Bose Polaron Interactions in A Cavity-Coupled Monolayer Semiconductor Related Papers Related Patents Related Grants Related Venues Related Experts View Highlight: Here, we explore Bose polaron physics in a two-dimensional nonequilibrium setting by injecting σ− polarized exciton-polariton impurities into a bath of coherent σ+ polarized polaritons generated by resonant laser excitation of monolayer MoSe2 embedded in an optical cavity. |
Oriana Diessel; |