Publications

Found 67 results

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2025

Dong, Hang, Pengfei Zhang, Da\ifmmode \breve{g}\ u{g}\fi{}, Ceren B Dag, Yu Gao, Ning Wang, Jinfeng Deng, et al.. “Measuring The Spectral Form Factor In Many-Body Chaotic And Localized Phases Of Quantum Processors”. Phys. Rev. Lett 134, no. 1. Phys. Rev. Lett (2025). doi:10.1103/PhysRevLett.134.010402.

Dong, Hang, Pengfei Zhang, Da\ifmmode \breve{g}\ u{g}\fi{}, Ceren B Dag, Yu Gao, Ning Wang, Jinfeng Deng, et al.. “Measuring The Spectral Form Factor In Many-Body Chaotic And Localized Phases Of Quantum Processors”. Phys. Rev. Lett 134, no. 1. Phys. Rev. Lett (2025). doi:10.1103/PhysRevLett.134.010402.

Dong, Hang, Pengfei Zhang, Da\ifmmode \breve{g}\ u{g}\fi{}, Ceren B Dag, Yu Gao, Ning Wang, Jinfeng Deng, et al.. “Measuring The Spectral Form Factor In Many-Body Chaotic And Localized Phases Of Quantum Processors”. Phys. Rev. Lett 134, no. 1. Phys. Rev. Lett (2025). doi:10.1103/PhysRevLett.134.010402.

Dong, Hang, Pengfei Zhang, Da\ifmmode \breve{g}\ u{g}\fi{}, Ceren B Dag, Yu Gao, Ning Wang, Jinfeng Deng, et al.. “Measuring The Spectral Form Factor In Many-Body Chaotic And Localized Phases Of Quantum Processors”. Phys. Rev. Lett 134, no. 1. Phys. Rev. Lett (2025). doi:10.1103/PhysRevLett.134.010402.

Dong, Hang, Pengfei Zhang, Da\ifmmode \breve{g}\ u{g}\fi{}, Ceren B Dag, Yu Gao, Ning Wang, Jinfeng Deng, et al.. “Measuring The Spectral Form Factor In Many-Body Chaotic And Localized Phases Of Quantum Processors”. Phys. Rev. Lett 134, no. 1. Phys. Rev. Lett (2025). doi:10.1103/PhysRevLett.134.010402.

Dong, Hang, Pengfei Zhang, Da\ifmmode \breve{g}\ u{g}\fi{}, Ceren B Dag, Yu Gao, Ning Wang, Jinfeng Deng, et al.. “Measuring The Spectral Form Factor In Many-Body Chaotic And Localized Phases Of Quantum Processors”. Phys. Rev. Lett 134, no. 1. Phys. Rev. Lett (2025). doi:10.1103/PhysRevLett.134.010402.

Dong, Hang, Pengfei Zhang, Da\ifmmode \breve{g}\ u{g}\fi{}, Ceren B Dag, Yu Gao, Ning Wang, Jinfeng Deng, et al.. “Measuring The Spectral Form Factor In Many-Body Chaotic And Localized Phases Of Quantum Processors”. Phys. Rev. Lett 134, no. 1. Phys. Rev. Lett (2025). doi:10.1103/PhysRevLett.134.010402.

Dong, Hang, Pengfei Zhang, Da\ifmmode \breve{g}\ u{g}\fi{}, Ceren B Dag, Yu Gao, Ning Wang, Jinfeng Deng, et al.. “Measuring The Spectral Form Factor In Many-Body Chaotic And Localized Phases Of Quantum Processors”. Phys. Rev. Lett 134, no. 1. Phys. Rev. Lett (2025). doi:10.1103/PhysRevLett.134.010402.

Carroll, Annette N, Henrik Hirzler, Calder Miller, David Wellnitz, Sean R Muleady, Junyu Lin, Krzysztof P Zamarski, et al.. “Observation Of Generalized T-J Spin Dynamics With Tunable Dipolar Interactions”. Science 388, no. 6745. Science (2025). doi:10.1126/science.adq0911.

2024

Zhang, Chi, Seth T Rittenhouse, Timur V Tscherbul, H. R Sadeghpour, and Nicholas R Hutzler. “Sympathetic Cooling And Slowing Of Molecules With Rydberg Atoms”. Phys. Rev. Lett 132, no. 3. Phys. Rev. Lett (2024). doi:10.1103/PhysRevLett.132.033001.

2023

Machado, Francisco, Quntao Zhuang, Norman Y Yao, and Michael P Zaletel. “Absolutely Stable Time Crystals At Finite Temperature”. Phys. Rev. Lett 131, no. 18. Phys. Rev. Lett (2023). doi:10.1103/PhysRevLett.131.180402.

Machado, Francisco, Quntao Zhuang, Norman Y Yao, and Michael P Zaletel. “Absolutely Stable Time Crystals At Finite Temperature”. Phys. Rev. Lett 131, no. 18. Phys. Rev. Lett (2023). doi:10.1103/PhysRevLett.131.180402.

Mistakidis, S.I., A.G. Volosniev, R.E. Barfknecht, T. Fogarty, Th. Busch, A. Foerster, P. Schmelcher, and N.T. Zinner. “Few-Body Bose Gases In Low Dimensions—A Laboratory For Quantum Dynamics”. Physics Reports 1042. Physics Reports (2023). doi:https://doi.org/10.1016/j.physrep.2023.10.004.

2022

Walther, Valentin, Lida Zhang, Susanne F Yelin, and Thomas Pohl. “Nonclassical Light From Finite-Range Interactions In A Two-Dimensional Quantum Mirror”. Phys. Rev. B 105, no. 7. Phys. Rev. B (2022): 075307. doi:10.1103/PhysRevB.105.075307.

Zhang, Lida, Valentin Walther, Klaus M{\o{}}lmer, and Thomas Pohl. “Photon-Photon Interactions In {R}Ydberg-Atom Arrays”. Quantum 6, no. 2521-327X. Quantum (2022). doi:10.22331/q-2022-03-30-674.

Hollerith, Simon, Kritsana Srakaew, David Wei, Antonio Rubio-Abadal, Daniel Adler, Pascal Weckesser, Andreas Kruckenhauser, et al.. “Realizing Distance-Selective Interactions In A Rydberg-Dressed Atom Array”. Phys. Rev. Lett 128, no. 11. Phys. Rev. Lett (2022): 113602. doi:10.1103/PhysRevLett.128.113602.

2021

Yu, Yichao, Kenneth Wang, Jonathan D Hood, Lewis RB Picard, Jessie T Zhang, William B Cairncross, Jeremy M Hutson, Rosario Gonzalez-Ferez, Till Rosenband, and Kang-Kuen Ni. “Coherent Optical Creation Of A Single Molecule”. Phys. Rev. X 11. Phys. Rev. X (2021): 031061. doi:10.1103/PhysRevX.11.031061.

Zhong, Weishun, Jacob M Gold, Sarah Marzen, Jeremy L England, and Nicole Yunger Halpern. “Machine Learning Outperforms Thermodynamics In Measuring How Well A Many-Body System Learns A Drive”. Scientific Reports 11. Scientific Reports (2021): 9333. doi:10.1038/s41598-021-88311-7.

Zens, Matthias, Dmitry O Krimer, Himadri S Dhar, and Stefan Rotter. “Periodic Cavity State Revivals From Atomic Frequency Combs”. Phys. Rev. Lett 127. Phys. Rev. Lett (2021): 180402. doi:10.1103/PhysRevLett.127.180402.

Zhang, Yong-Chang, Valentin Walther, and Thomas Pohl. “Self-Bound Droplet Clusters In Laser-Driven Bose-Einstein Condensates”. Phys. Rev. A 103, no. 2. Phys. Rev. A (2021): 023308. doi:10.1103/PhysRevA.103.023308.

2020

Weichselbaumer, Stefan, Matthias Zens, Christoph W Zollitsch, Martin S Brandt, Stefan Rotter, Rudolf Gross, and Hans Huebl. “Echo Trains In Pulsed Electron Spin Resonance Of A Strongly Coupled Spin Ensemble”. Phys. Rev. Lett 125. Phys. Rev. Lett (2020): 137701. doi:10.1103/PhysRevLett.125.137701.

Weichselbaumer, Stefan, Matthias Zens, Christoph W Zollitsch, Martin S Brandt, Stefan Rotter, Rudolf Gross, and Hans Huebl. “Echo Trains In Pulsed Electron Spin Resonance Of A Strongly Coupled Spin Ensemble”. Phys. Rev. Lett 125. Phys. Rev. Lett (2020): 137701. doi:10.1103/PhysRevLett.125.137701.

Zhong, Weishun, Jacob M Gold, Sarah Marzen, Jeremy L England, and Nicole Yunger Halpern. “Learning About Learning By Many-Body Systems”. Arxiv E-Prints. Arxiv E-Prints (2020): arXiv:2004.03604.

Zhong, Weishun, Jacob M Gold, Sarah Marzen, Jeremy L England, and Nicole Yunger Halpern. “Quantifying Many-Body Learning Far From Equilibrium With Representation Learning”. Arxiv E-Prints. Arxiv E-Prints (2020): arXiv:2001.03623.

Yan, Zoe Z, Woo Jee, Yiqi Ni, Sebastian Will, Tijs Karman, and Martin Zwierlein. “Resonant Dipolar Collisions Of Ultracold Molecules Induced By Microwave Dressing”. Phys. Rev. Lett 125, no. 6. Phys. Rev. Lett (2020): 063401. doi:10.1103/PhysRevLett.125.063401.

2019

Fersterer, Petra, Arghavan Safavi-Naini, Bihui Zhu, Lucas Gabardos, Steven Lepoutre, L. Vernac, B. Laburthe-Tolra, Blair P. Blakie, and Ana Maria Rey. “Dynamics Of An Itinerant Spin-3 Atomic Dipolar Gas In An Optical Lattice”. Phys. Rev. A 100. Phys. Rev. A (2019): 033609. doi:10.1103/PhysRevA.100.033609.

Omran, A., H. Levine, A. Keesling, G. Semeghini, T. T Wang, S. Ebadi, H. Bernien, et al.. “Generation And Manipulation Of Schrödinger Cat States In Rydberg Atom Arrays”. Science 365. Science (2019): 570–574. doi:10.1126/science.aax9743.

Lepoutre, S., J. Schachenmayer, L. Gabardos, B. Zhu, B. Naylor, E. Maréchal, O. Gorceix, A. M Rey, L. Vernac, and B. Laburthe-Tolra. “Out-Of-Equilibrium Quantum Magnetism And Thermalization In A Spin-3 Many-Body Dipolar Lattice System”. Nature Communications 10. Nature Communications (2019). doi:10.1038/s41467-019-09699-5.

Christianen, Arthur, Martin W Zwierlein, Gerrit C Groenenboom, and Tijs Karman. “Photoinduced Two-Body Loss Of Ultracold Molecules”. Phys. Rev. Lett 123. Phys. Rev. Lett (2019): 123402. doi:10.1103/PhysRevLett.123.123402.

Keesling, Alexander, Ahmed Omran, Harry Levine, Hannes Bernien, Hannes Pichler, Soonwon Choi, Rhine Samajdar, et al.. “Quantum Kibble–Zurek Mechanism And Critical Dynamics On A Programmable Rydberg Simulator”. Nature 568. Nature (2019): 207–211. doi:10.1038/s41586-019-1070-1.

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