People: Manuel Endres

Harvard
endres@fas.harvard.edu
(617) 496-2544
Room Lyman-336
Oxford Street
Cambridge, MA 02139
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Postdoctoral Fellow
Publications
  1. J. Choi, D. Mark, S. Choi, M. Endres, A. Shaw, Z. Chen, P. Scholl, R. Finkelstein, and A. Elben. Benchmarking highly entangled states on a 60-atom analogue quantum simulator. Nature, 628, 2024.
  2. A. Omran, H. Levine, A. Keesling Contreras, G. Semeghini, S. Ebadi, H. Bernien, A. Zibrov, H. Pichler, S. Choi, M. Endres, M. Greiner, V. Vuletic, M. Lukin, T. T. Wang, J. Cui, M. Rossignolo, P. Rembold, S. Montangero, and T. Calarco. Generation and manipulation of Schrödinger cat states in Rydberg atom arrays. Science, 365(6453):570-574, August 2019.
  3. H. Levine, A. Omran, A. Keesling Contreras, H. Bernien, M. Greiner, V. Vuletic, M. Lukin, M. Endres, G. Torlai, B. Timar, E.P.L. va Nieuwenburg, and R.G. Melko. Integrating neural networks with a quantum simulator for state reconstruction. Physical Review Letters, 123(230504), December 2019.
  4. A. Keesling Contreras, A. Omran, H. Levine, H. Bernien, H. Pichler, S. Choi, M. Endres, M. Greiner, V. Vuletic, M. Lukin, R. Samajdar, S. Schwartz, P. Silvi, S. Sachdev, and P. Zoller. Quantum Kibble-Zurek mechanism and critical dynamics on a programmable Rydberg simulator. Nature, 568:207–211, April 2019.
  5. H. Levine, A. Keesling Contreras, A. Omran, H. Bernien, A. Zibrov, M. Endres, M. Greiner, V. Vuletic, M. Lukin, and S. Schwartz. High-Fidelity Control and Entanglement of Rydberg-Atom Qubits. Phys. Rev. Lett, 121(123603), September 2018.
  6. H. Bernien, A. Keesling Contreras, H. Levine, A. Omran, H. Pichler, S. Choi, A. Zibrov, M. Endres, M. Greiner, V. Vuletic, M. Lukin, and S. Schwartz. Probing many-body dynamics on a 51-atom quantum simulator. Nature, 551:579-584, 2017.
  7. M. Endres, H. Bernien, A. Keesling Contreras, C. Senko, V. Vuletic, M. Greiner, M. Lukin, H. Levine, E.R. Anschuetz, and A. Krajenbrink. Atom-by-atom assembly of defect-free one-dimensional cold atom arrays. Science, 375(6315), November 2016.
  8. F. Grusdt, E. Demler, M. Endres, M. Schleier-Smith, L. Duca, M. Reitter, I. Bloch, U. Schneider, and T. Li. Bloch state tomography using Wilson lines. Science, 352, 2016.
News
Tue November 26, 2024

Maximum Entropy Principle in Deep Thermalization and in Hilbert-Space Ergodicity

The dynamics of systems consisting of many particles are very complicated and practically impossible to predict. For such systems, statistical physics has proven extremely useful, making highly accurate predictions for both quantum and classical systems. The central assumption behind statistical physics is the maximum entropy principle: A generic system reaches a state with maximum entropy,...
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Research Highlights