Observation of ballistic plasma and memory in high-energy gauge theory dynamics
Daniel K. Mark, Federica M. Surace, Thomas Schuster, Adam L. Shaw, Wenjie Gong, Soonwon Choi, Manuel Endres
arXiv:2510.11679 (2025)
A three-dimensional acousto-optic deflector
Lewis R. B. Picard, Manuel Endres
arXiv:2510.07633 (2025)
Extending the dynamic range in quantum frequency estimation with sequential weak measurements
Su Direkci, Manuel Endres, Tuvia Gefen
arXiv:2509.01474 (2025)
Practical roadmap to measurement-altered criticality in Rydberg arrays
Stephen Naus, Yue Liu, Sara Murciano, Pablo Sala, Manuel Endres, Jason Alicea
arXiv:2506.21963 (2025)
Optimal Conversion from Classical to Quantum Randomness via Quantum Chaos
Wai-Keong Mok, Tobias Haug, Adam L. Shaw, Manuel Endres, John Preskill
Phys. Rev. Lett. 134, 180403 (2025)
arXiv:2410.05181 (2024)
Benchmarking and fidelity response theory of high-fidelity Rydberg entangling gates
Richard Bing-Shiun Tsai*, Xiangkai Sun*, Adam L. Shaw, Ran Finkelstein, Manuel Endres (*equal contribution)
PRX Quantum 6, 010331 (2025)
arXiv:2407.20184 (2024)
Heisenberg-limited Bayesian phase estimation with low-depth digital quantum circuits
Su Direkci, Ran Finkelstein, Manuel Endres, Tuvia Gefen
arXiv:2407.06006 (2024)
A tweezer array with 6100 highly coherent atomic qubits
Hannah J. Manetsch*, Gyohei Nomura*, Elie Bataille*, Xudong Lv, Kon H. Leung, Manuel Endres (*equal contribution)
Nature 647, 60–67 (2025)
arXiv:2403.12021 (2024)
Caltech Press: Caltech Team Sets Record with 6,100-Qubit Array
New Scientist
Experimental Signatures of Hilbert-Space Ergodicity: Universal Bitstring Distributions and Applications in Noise Learning
Adam L. Shaw*, Daniel K. Mark*, Joonhee Choi, Ran Finkelstein, Pascal Scholl, Soonwon Choi, Manuel Endres (*equal contribution)
Phys. Rev. X 15, 031001 (2025)
arXiv:2403.11971 (2024)
A Maximum Entropy Principle in Deep Thermalization and in Hilbert-Space Ergodicity
Daniel K. Mark, Federica Surace, Andreas Elben, Adam L. Shaw, Joonhee Choi, Gil Refael, Manuel Endres, Soonwon Choi
Phys. Rev. X 14, 041051 (2024)
arXiv:2403.11970 (2024)
Universal quantum operations and ancilla-based readout for tweezer clocks
Ran Finkelstein*, Richard Bing-Shiun Tsai*, Xiangkai Sun*, Pascal Scholl, Su Direkci, Tuvia Gefen, Joonhee Choi, Adam L. Shaw, Manuel Endres (*equal contribution)
Nature 634, 321–327 (2024)
arXiv:2402.16220 (2024)
Caltech Press: Merging Atomic Clocks with Quantum Computers
Erasure-cooling, control, and hyper-entanglement of motion in optical tweezers
Adam L. Shaw*, Pascal Scholl*, Ran Finkelstein*, Richard Bing-Shiun Tsai, Joonhee Choi, Manuel Endres (*equal contribution)
Science 388, 845-849 (2025)
arXiv:2311.15580 (2023)
Caltech Press: Controlling Quantum Motion and Hyper-Entanglement
Benchmarking highly entangled states on a 60-atom analog quantum simulator
Adam L. Shaw*, Zhuo Chen*, Joonhee Choi*, Daniel K. Mark*, Pascal Scholl, Ran Finkelstein, Andreas Elben, Soonwon Choi, Manuel Endres (*equal contribution)
Nature 628, 71–77 (2024)
arXiv:2308.07914 (2023)
Caltech Press: Verifying the Work of Quantum Computers
Erasure conversion in a high-fidelity Rydberg quantum simulator
Pascal Scholl*, Adam L. Shaw*, Richard Bing-Shiun Tsai, Ran Finkelstein, Joonhee Choi, Manuel Endres (*equal contribution)
Nature 622, 273–278 (2023)
arXiv:2305.03406 (2023)
Caltech Press: A New Way to Erase Quantum Computer Errors
Physics World
Multi-ensemble metrology by programming local rotations with atom movements
Adam L. Shaw*, Ran Finkelstein*, Richard Bing-Shiun Tsai, Pascal Scholl, Tai Hyun Yoon, Joonhee Choi, Manuel Endres (*equal contribution)
Nature Physics 20, 195–201 (2024)
arXiv:2303.16885 (2023)
News & Views: Parallel quantum control meets optical atomic clocks
A multi-ensemble atomic clock enhanced using quantum computing tools
Dark-state enhanced loading of an optical tweezer array
Adam L. Shaw, Pascal Scholl, Ran Finklestein, Ivaylo S. Madjarov, Brandon Grinkemeyer, Manuel Endres
Phys. Rev. Lett. 130, 193402 (2023)
arXiv:2302.10855 (2023)
Many-body cavity quantum electrodynamics with driven inhomogeneous emitters
Mi Lei*, Rikuto Fukumori*, Jake Rochman, Bihui Zhu, Manuel Endres, Joonhee Choi, Andrei Faraon (*equal contribution)
Nature 617, 271–276 (2023)
arXiv:2208.04345 (2022)
Caltech Press: Newly Observed Effect Makes Atoms Transparent to Certain Frequencies of Light
Preparing random states and benchmarking with many-body quantum chaos
Joonhee Choi*, Adam L. Shaw*, Ivaylo S. Madjarov, Xin Xie, Ran Finkelstein, Jacob P. Covey, Jordan S. Cotler, Daniel K. Mark, Hsin-Yuan Huang, Anant Kale, Hannes Pichler, Fernando G.S.L. Brandão, Soonwon Choi, Manuel Endres (*equal contribution)
Nature 613, 468–473 (2023)
arXiv:2103.03535 (2021)
Caltech Press: Randomness in Quantum Machines Helps Verify Their Accuracy
News & Views: They're so random
Emergent quantum state designs from individual many-body wavefunctions
Jordan S. Cotler*, Daniel K. Mark*, Hsin-Yuan Huang*, Felipe Hernández, Joonhee Choi, Adam L. Shaw, Manuel Endres, Soonwon Choi (*equal contribution)
PRX Quantum 4, 010311 (2023)
arXiv:2103.03536 (2021)
Benchmarking quantum simulators using ergodic quantum dynamics
Daniel K. Mark, Joonhee Choi, Adam L. Shaw, Manuel Endres, Soonwon Choi
Phys. Rev. Lett. 131, 110601 (2023)
arXiv:2205.12211 (2022)
Quantum spin liquids bootstrapped from Ising criticality in Rydberg arrays
Kevin Slagle, Yue Liu, David Aasen, Hannes Pichler, Roger SK Mong, Xie Chen, Manuel Endres, Jason Alicea
Phys. Rev. B 106, 115122 (2022)
arXiv:2204.00013 (2022)
Microscopic characterization of Ising conformal field theory in Rydberg chains
Kevin Slagle, David Aasen, Hannes Pichler, Roger S. K. Mong, Paul Fendley, Xie Chen, Manuel Endres, Jason Alicea
Phys. Rev. B 104, 235109 (2021)
arXiv:2108.09309 (2021)
Learning algorithm reflecting universal scaling behavior near phase transitions
Nishad Maskara, Michael Buchhold, Manuel Endres, Evert van Nieuwenburg
Phys. Rev. Res. 4, L022032 (2022)
arXiv:2103.15855 (2021)
High-fidelity entanglement and detection of alkaline-earth Rydberg atoms
Ivaylo S. Madjarov*, Jacob P. Covey*, Adam L. Shaw, Joonhee Choi, Anant Kale, Alexandre Cooper, Hannes Pichler, Vladimir Schkolnik, Jason R. Williams, Manuel Endres (*equal contribution)
Nature Physics 16, 857–861 (2020)
arXiv:2001.04455 (2020)
An Atomic-Array Optical Clock with Single-Atom Readout
Ivaylo S. Madjarov, Alexandre Cooper, Adam L. Shaw, Jacob P. Covey, Vladimir Schkolnik, Tai Hyun Yoon, Jason R. Williams, Manuel Endres
Phys. Rev. X 9, 041052 (2019)
Physics 12, 141 (2019): “Tweezer Clock” Offers New Possibilities in Timekeeping
arXiv:1908.05619 (2019)
Generation and manipulation of Schrödinger cat states in Rydberg atom arrays
A. Omran, H. Levine, A. Keesling, G. Semeghini, T. T. Wang, S. Ebadi, H. Bernien, A. S. Zibrov, H. Pichler, S. Choi, J. Cui, M. Rossignolo, P. Rembold, S. Montangero, T. Calarco, M. Endres, M. Greiner, V. Vuletić, M. D. Lukin
Science 365, 570-574 (2019)
arXiv:1905.05721
Integrating Neural Networks with a Quantum Simulator for State Reconstruction
Giacomo Torlai, Brian Timar, Evert P.L. van Nieuwenburg, Harry Levine, Ahmed Omran, Alexander Keesling, Hannes Bernien, Markus Greiner, Vladan Vuletić, Mikhail D. Lukin, Roger G. Melko, Manuel Endres
Phys. Rev. Lett. 123, 230504 (2019)
Editor's Suggestion
arXiv:1904.08441 (2019)
2000-Times Repeated Imaging of Strontium Atoms in Clock-Magic Tweezer Arrays
Jacob P. Covey, Ivaylo S. Madjarov, Alexandre Cooper, Manuel Endres
Phys. Rev. Lett. 122, 173201 (2019)
Editors' Suggestion
arXiv:1811.06014 (2018)
Telecom-Band Quantum Optics with Ytterbium Atoms and Silicon Nanophotonics
Jacob P. Covey, Alp Sipahigil, Szilard Szoke, Neil Sinclair, Manuel Endres, Oskar Painter
Phys. Rev. Applied 11, 034044 (2019)
Editors' Suggestion
arXiv:1810.12821 (2018)
Alkaline-Earth Atoms in Optical Tweezers
Alexandre Cooper, Jacob P. Covey, Ivaylo S. Madjarov, Sergey G. Porsev, Marianna S. Safronova, Manuel Endres
Phys. Rev. X 8, 041055 (2018)
Featured in a Physics Viewpoint by Antoine Browaeys: Alkaline Atoms Held with Optical Tweezers
arXiv:1810.06537 (2018)
Berry-electrodynamics - Anomalous drift and pumping from time-dependent Berry connection
Swati Chaudhary, Manuel Endres, Gil Refael
Phys. Rev. B 98, 064310 (2018)
Editors' Suggestion
arXiv:1805.04532 (2018)
Quantum Kibble–Zurek mechanism and critical dynamics on a programmable Rydberg simulator
Alexander Keesling, Ahmed Omran, Harry Levine, Hannes Bernien, Hannes Pichler, Soonwon Choi, Rhine Samajdar, Sylvain Schwartz, Pietro Silvi, Subir Sachdev, Peter Zoller, Manuel Endres, Markus Greiner, Vladan Vuletic, Mikhail D. Lukin
Nature 568, 207–211 (2019)
arXiv:1809.05540 (2018)
High-Fidelity Control and Entanglement of Rydberg-Atom Qubits
Harry Levine, Alexander Keesling, Ahmed Omran, Hannes Bernien, Sylvain Schwartz, Alexander S. Zibrov, Manuel Endres, Markus Greiner, Vladan Vuletić, and Mikhail D. Lukin
Phys. Rev. Lett. 121, 12360 (2018)
arxiv:1806.04682 (2018)
Scrambling and thermalization in a diffusive quantum many-body system
A. Bohrdt, C. B. Mendl, M. Endres, M. Knap
New J. Phys. 19 063001 (2017)
arXiv:1612.02434 (2016)
Probing many-body dynamics on a 51-atom quantum simulator
Hannes Bernien, Sylvain Schwartz, Alexander Keesling, Harry Levine, Ahmed Omran, Hannes Pichler, Soonwon Choi, Alexander S. Zibrov, Manuel Endres, Markus Greiner, Vladan Vuletić, Mikhail D. Lukin
Nature 551, 579, (2017)
arXiv:1707.04344 (2017)
Atom-by-atom assembly of defect-free one-dimensional cold atom arrays
Manuel Endres, Hannes Bernien, Alexander Keesling, Harry Levine, Eric R. Anschuetz, Alexandre Krajenbrink, Crystal Senko, Vladan Vuletic, Markus Greiner, Mikhail D. Lukin
Science 354, 1024 (2016)
Science perspective by Cindy Regal: Bringing order to neutral atom arrays
Highlighted in MIT News: Scientists set traps for atoms with single-particle precision
arXiv:1607.03044 (2016)
Pre-Caltech:
Bloch state tomography using Wilson lines
T. Li, L. Duca, M. Reitter, F. Grusdt, E. Demler, M. Endres, M. Schleier-Smith, I. Bloch, U. Schneider
Science 352, 1094 (2016)
arXiv:1509.02185
Destruction of string order after a quantum quench
M. C. Strinati, L. Mazza, M. Endres, D. Rossini, R. Fazio
Phys. Rev. B 94, 024302 (2016)
arXiv:1604.02823
Landau levels in strained optical lattices
Binbin Tian, Manuel Endres, David Pekker
Phys. Rev. Lett. 115, 236803 (2015)
arXiv version
The Massive Goldstone (Higgs) Mode in Two-Dimensional Ultra-cold Atomic Lattice Systems
L. Liu, K. Chen, M. Endres, Y. Deng, L. Pollet, N. Prokof'ev
Phys. Rev. B 92, 174521 (2015)
Highlighted as an editor's suggestion
arXiv version
Spatially Resolved Detection of a Spin-Entanglement Wave in a Bose-Hubbard Chain
T. Fukuhara, S. Hild, J. Zeiher, P. Schauß, I. Bloch, M. Endres, .C. Gross
Phys. Rev. Lett. 115, 035302 (2015)
Featured in a Physics Viewpoint by Phillip Hauke: Zooming in on Entanglement
arXiv version
Quantum simulation: Choose your own interaction
J. Thompson, M. Endres
Nature Photonics, News and Views (2015)
Detecting two-site spin-entanglement in many-body systems with local particle-number fluctuations
L. Mazza, D. Rossini, R. Fazio, M. Endres
New J. Phys. 17, 013015 (2015)
arXiv version
Out-of-equilibrium dynamics and thermalization of string order
L. Mazza, D. Rossini, M. Endres, R. Fazio
Phys. Rev. B, Rapid Communication 90, 020301 (2014)
arXiv version
Probing Correlated Quantum Many-Body Systems at the Single-Particle Level
M. Endres
Springer Theses ISBN 978-3-319-05753-8 (2014)
free version
Single-site- and single-atom-resolved measurement of correlation functions.
M. Endres, M. Cheneau, T. Fukuhara, C. Weitenberg, P. Schauß, C. Gross, L. Mazza, M.C. Banuls, L. Pollet, I. Bloch, S. Kuhr
Appl. Phys. B 113, 27-39 (2013)
arXiv version
Microscopic observation of magnon bound states and their dynamics
T. Fukuhara, P. Schauß, M. Endres, S. Hild, M. Cheneau, I. Bloch, C. Gross
Nature 502, 76-79 (2013)
Featured in a News & Views by Sougato Bose: Quantum togetherness
arXiv version
Non-local order in Mott insulators, Duality and Wilson Loops
S. P. Rath, W. Simeth, M. Endres, W. Zwerger
Ann. Phys. 334, 256-271 (2013)
arXiv version
Quantum dynamics of a mobile spin impurity
T. Fukuhara, A. Kantian, M. Endres, M. Cheneau, P. Schauß, S. Hild, D. Bellem, U. Schollwöck, T. Giamarchi, C. Gross, I. Bloch, S. Kuhr
Nature Phys. 9, 235–241 (2013)
Featured in a News & Views by Patrick Windpassinger: Spins on the move
arXiv version
Observation of spatially ordered structures in a two-dimensional Rydberg gas
P. Schauß, M. Cheneau, M. Endres, T. Fukuhara, S. Hild, A. Omran, T. Pohl, C. Gross, S. Kuhr, I. Bloch
Nature 491, 87-91 (2012)
arXiv version
The ‘Higgs’ amplitude mode at the two-dimensional superfluid/Mott insulator transition
M. Endres, T. Fukuhara, D. Pekker, M. Cheneau, P. Schauß, C. Gross, E. Demler, S. Kuhr, I. Bloch
Nature 487, 454-458 (2012)
Featured in the Journal Club for Condensed Matter by Subir Sachdev: The Higgs mode in condensed matter
arXiv
Light-cone-like spreading of correlations in a quantum many-body system
M. Cheneau, P. Barmettler, D. Poletti, M. Endres, P. Schauß, T. Fukuhara, C. Gross, I. Bloch, C. Kollath, S. Kuhr
Nature 481, 484-487 (2012)
arXiv version
Observation of Correlated Particle-Hole Pairs and String Order in Low-Dimensional Mott Insulators
M. Endres, M. Cheneau, T. Fukuhara, C. Weitenberg, P. Schauß, C. Gross, L. Mazza, M.C. Banuls, L. Pollet, I. Bloch, S. Kuhr
Science 334, 200-203 (2011)
arXiv version
Coherent light scattering from a two-dimensional Mott insulator
C. Weitenberg, P. Schauß, T. Fukuhara, M. Cheneau, M. Endres, I. Bloch, S. Kuhr
Phys. Rev. Lett. 106, 215301 (2011)
Featured in a Physics Viewpoint by Joseph Thywissen: Bragging Rights
arXiv version
Single-spin addressing in an atomic Mott insulator
C. Weitenberg, M. Endres, J. F. Sherson, M. Cheneau, P. Schauß, T. Fukuhara, I. Bloch, S. Kuhr
Nature 471, 319-324 (2011)
arXiv version
Single-atom-resolved fluorescence imaging of an atomic Mott insulator
J. F. Sherson, C. Weitenberg, M. Endres, M. Cheneau, I. Bloch, S. Kuhr
Nature 467, 68-72 (2010)
arXiv versionarXiv:2308.07914arXiv:2410.05181arXiv:2506.21963
Daniel K. Mark, Federica M. Surace, Thomas Schuster, Adam L. Shaw, Wenjie Gong, Soonwon Choi, Manuel Endres
arXiv:2510.11679 (2025)
A three-dimensional acousto-optic deflector
Lewis R. B. Picard, Manuel Endres
arXiv:2510.07633 (2025)
Extending the dynamic range in quantum frequency estimation with sequential weak measurements
Su Direkci, Manuel Endres, Tuvia Gefen
arXiv:2509.01474 (2025)
Practical roadmap to measurement-altered criticality in Rydberg arrays
Stephen Naus, Yue Liu, Sara Murciano, Pablo Sala, Manuel Endres, Jason Alicea
arXiv:2506.21963 (2025)
Optimal Conversion from Classical to Quantum Randomness via Quantum Chaos
Wai-Keong Mok, Tobias Haug, Adam L. Shaw, Manuel Endres, John Preskill
Phys. Rev. Lett. 134, 180403 (2025)
arXiv:2410.05181 (2024)
Benchmarking and fidelity response theory of high-fidelity Rydberg entangling gates
Richard Bing-Shiun Tsai*, Xiangkai Sun*, Adam L. Shaw, Ran Finkelstein, Manuel Endres (*equal contribution)
PRX Quantum 6, 010331 (2025)
arXiv:2407.20184 (2024)
Heisenberg-limited Bayesian phase estimation with low-depth digital quantum circuits
Su Direkci, Ran Finkelstein, Manuel Endres, Tuvia Gefen
arXiv:2407.06006 (2024)
A tweezer array with 6100 highly coherent atomic qubits
Hannah J. Manetsch*, Gyohei Nomura*, Elie Bataille*, Xudong Lv, Kon H. Leung, Manuel Endres (*equal contribution)
Nature 647, 60–67 (2025)
arXiv:2403.12021 (2024)
Caltech Press: Caltech Team Sets Record with 6,100-Qubit Array
New Scientist
Experimental Signatures of Hilbert-Space Ergodicity: Universal Bitstring Distributions and Applications in Noise Learning
Adam L. Shaw*, Daniel K. Mark*, Joonhee Choi, Ran Finkelstein, Pascal Scholl, Soonwon Choi, Manuel Endres (*equal contribution)
Phys. Rev. X 15, 031001 (2025)
arXiv:2403.11971 (2024)
A Maximum Entropy Principle in Deep Thermalization and in Hilbert-Space Ergodicity
Daniel K. Mark, Federica Surace, Andreas Elben, Adam L. Shaw, Joonhee Choi, Gil Refael, Manuel Endres, Soonwon Choi
Phys. Rev. X 14, 041051 (2024)
arXiv:2403.11970 (2024)
Universal quantum operations and ancilla-based readout for tweezer clocks
Ran Finkelstein*, Richard Bing-Shiun Tsai*, Xiangkai Sun*, Pascal Scholl, Su Direkci, Tuvia Gefen, Joonhee Choi, Adam L. Shaw, Manuel Endres (*equal contribution)
Nature 634, 321–327 (2024)
arXiv:2402.16220 (2024)
Caltech Press: Merging Atomic Clocks with Quantum Computers
Erasure-cooling, control, and hyper-entanglement of motion in optical tweezers
Adam L. Shaw*, Pascal Scholl*, Ran Finkelstein*, Richard Bing-Shiun Tsai, Joonhee Choi, Manuel Endres (*equal contribution)
Science 388, 845-849 (2025)
arXiv:2311.15580 (2023)
Caltech Press: Controlling Quantum Motion and Hyper-Entanglement
Benchmarking highly entangled states on a 60-atom analog quantum simulator
Adam L. Shaw*, Zhuo Chen*, Joonhee Choi*, Daniel K. Mark*, Pascal Scholl, Ran Finkelstein, Andreas Elben, Soonwon Choi, Manuel Endres (*equal contribution)
Nature 628, 71–77 (2024)
arXiv:2308.07914 (2023)
Caltech Press: Verifying the Work of Quantum Computers
Erasure conversion in a high-fidelity Rydberg quantum simulator
Pascal Scholl*, Adam L. Shaw*, Richard Bing-Shiun Tsai, Ran Finkelstein, Joonhee Choi, Manuel Endres (*equal contribution)
Nature 622, 273–278 (2023)
arXiv:2305.03406 (2023)
Caltech Press: A New Way to Erase Quantum Computer Errors
Physics World
Multi-ensemble metrology by programming local rotations with atom movements
Adam L. Shaw*, Ran Finkelstein*, Richard Bing-Shiun Tsai, Pascal Scholl, Tai Hyun Yoon, Joonhee Choi, Manuel Endres (*equal contribution)
Nature Physics 20, 195–201 (2024)
arXiv:2303.16885 (2023)
News & Views: Parallel quantum control meets optical atomic clocks
A multi-ensemble atomic clock enhanced using quantum computing tools
Dark-state enhanced loading of an optical tweezer array
Adam L. Shaw, Pascal Scholl, Ran Finklestein, Ivaylo S. Madjarov, Brandon Grinkemeyer, Manuel Endres
Phys. Rev. Lett. 130, 193402 (2023)
arXiv:2302.10855 (2023)
Many-body cavity quantum electrodynamics with driven inhomogeneous emitters
Mi Lei*, Rikuto Fukumori*, Jake Rochman, Bihui Zhu, Manuel Endres, Joonhee Choi, Andrei Faraon (*equal contribution)
Nature 617, 271–276 (2023)
arXiv:2208.04345 (2022)
Caltech Press: Newly Observed Effect Makes Atoms Transparent to Certain Frequencies of Light
Preparing random states and benchmarking with many-body quantum chaos
Joonhee Choi*, Adam L. Shaw*, Ivaylo S. Madjarov, Xin Xie, Ran Finkelstein, Jacob P. Covey, Jordan S. Cotler, Daniel K. Mark, Hsin-Yuan Huang, Anant Kale, Hannes Pichler, Fernando G.S.L. Brandão, Soonwon Choi, Manuel Endres (*equal contribution)
Nature 613, 468–473 (2023)
arXiv:2103.03535 (2021)
Caltech Press: Randomness in Quantum Machines Helps Verify Their Accuracy
News & Views: They're so random
Emergent quantum state designs from individual many-body wavefunctions
Jordan S. Cotler*, Daniel K. Mark*, Hsin-Yuan Huang*, Felipe Hernández, Joonhee Choi, Adam L. Shaw, Manuel Endres, Soonwon Choi (*equal contribution)
PRX Quantum 4, 010311 (2023)
arXiv:2103.03536 (2021)
Benchmarking quantum simulators using ergodic quantum dynamics
Daniel K. Mark, Joonhee Choi, Adam L. Shaw, Manuel Endres, Soonwon Choi
Phys. Rev. Lett. 131, 110601 (2023)
arXiv:2205.12211 (2022)
Quantum spin liquids bootstrapped from Ising criticality in Rydberg arrays
Kevin Slagle, Yue Liu, David Aasen, Hannes Pichler, Roger SK Mong, Xie Chen, Manuel Endres, Jason Alicea
Phys. Rev. B 106, 115122 (2022)
arXiv:2204.00013 (2022)
Microscopic characterization of Ising conformal field theory in Rydberg chains
Kevin Slagle, David Aasen, Hannes Pichler, Roger S. K. Mong, Paul Fendley, Xie Chen, Manuel Endres, Jason Alicea
Phys. Rev. B 104, 235109 (2021)
arXiv:2108.09309 (2021)
Learning algorithm reflecting universal scaling behavior near phase transitions
Nishad Maskara, Michael Buchhold, Manuel Endres, Evert van Nieuwenburg
Phys. Rev. Res. 4, L022032 (2022)
arXiv:2103.15855 (2021)
High-fidelity entanglement and detection of alkaline-earth Rydberg atoms
Ivaylo S. Madjarov*, Jacob P. Covey*, Adam L. Shaw, Joonhee Choi, Anant Kale, Alexandre Cooper, Hannes Pichler, Vladimir Schkolnik, Jason R. Williams, Manuel Endres (*equal contribution)
Nature Physics 16, 857–861 (2020)
arXiv:2001.04455 (2020)
An Atomic-Array Optical Clock with Single-Atom Readout
Ivaylo S. Madjarov, Alexandre Cooper, Adam L. Shaw, Jacob P. Covey, Vladimir Schkolnik, Tai Hyun Yoon, Jason R. Williams, Manuel Endres
Phys. Rev. X 9, 041052 (2019)
Physics 12, 141 (2019): “Tweezer Clock” Offers New Possibilities in Timekeeping
arXiv:1908.05619 (2019)
Generation and manipulation of Schrödinger cat states in Rydberg atom arrays
A. Omran, H. Levine, A. Keesling, G. Semeghini, T. T. Wang, S. Ebadi, H. Bernien, A. S. Zibrov, H. Pichler, S. Choi, J. Cui, M. Rossignolo, P. Rembold, S. Montangero, T. Calarco, M. Endres, M. Greiner, V. Vuletić, M. D. Lukin
Science 365, 570-574 (2019)
arXiv:1905.05721
Integrating Neural Networks with a Quantum Simulator for State Reconstruction
Giacomo Torlai, Brian Timar, Evert P.L. van Nieuwenburg, Harry Levine, Ahmed Omran, Alexander Keesling, Hannes Bernien, Markus Greiner, Vladan Vuletić, Mikhail D. Lukin, Roger G. Melko, Manuel Endres
Phys. Rev. Lett. 123, 230504 (2019)
Editor's Suggestion
arXiv:1904.08441 (2019)
2000-Times Repeated Imaging of Strontium Atoms in Clock-Magic Tweezer Arrays
Jacob P. Covey, Ivaylo S. Madjarov, Alexandre Cooper, Manuel Endres
Phys. Rev. Lett. 122, 173201 (2019)
Editors' Suggestion
arXiv:1811.06014 (2018)
Telecom-Band Quantum Optics with Ytterbium Atoms and Silicon Nanophotonics
Jacob P. Covey, Alp Sipahigil, Szilard Szoke, Neil Sinclair, Manuel Endres, Oskar Painter
Phys. Rev. Applied 11, 034044 (2019)
Editors' Suggestion
arXiv:1810.12821 (2018)
Alkaline-Earth Atoms in Optical Tweezers
Alexandre Cooper, Jacob P. Covey, Ivaylo S. Madjarov, Sergey G. Porsev, Marianna S. Safronova, Manuel Endres
Phys. Rev. X 8, 041055 (2018)
Featured in a Physics Viewpoint by Antoine Browaeys: Alkaline Atoms Held with Optical Tweezers
arXiv:1810.06537 (2018)
Berry-electrodynamics - Anomalous drift and pumping from time-dependent Berry connection
Swati Chaudhary, Manuel Endres, Gil Refael
Phys. Rev. B 98, 064310 (2018)
Editors' Suggestion
arXiv:1805.04532 (2018)
Quantum Kibble–Zurek mechanism and critical dynamics on a programmable Rydberg simulator
Alexander Keesling, Ahmed Omran, Harry Levine, Hannes Bernien, Hannes Pichler, Soonwon Choi, Rhine Samajdar, Sylvain Schwartz, Pietro Silvi, Subir Sachdev, Peter Zoller, Manuel Endres, Markus Greiner, Vladan Vuletic, Mikhail D. Lukin
Nature 568, 207–211 (2019)
arXiv:1809.05540 (2018)
High-Fidelity Control and Entanglement of Rydberg-Atom Qubits
Harry Levine, Alexander Keesling, Ahmed Omran, Hannes Bernien, Sylvain Schwartz, Alexander S. Zibrov, Manuel Endres, Markus Greiner, Vladan Vuletić, and Mikhail D. Lukin
Phys. Rev. Lett. 121, 12360 (2018)
arxiv:1806.04682 (2018)
Scrambling and thermalization in a diffusive quantum many-body system
A. Bohrdt, C. B. Mendl, M. Endres, M. Knap
New J. Phys. 19 063001 (2017)
arXiv:1612.02434 (2016)
Probing many-body dynamics on a 51-atom quantum simulator
Hannes Bernien, Sylvain Schwartz, Alexander Keesling, Harry Levine, Ahmed Omran, Hannes Pichler, Soonwon Choi, Alexander S. Zibrov, Manuel Endres, Markus Greiner, Vladan Vuletić, Mikhail D. Lukin
Nature 551, 579, (2017)
arXiv:1707.04344 (2017)
Atom-by-atom assembly of defect-free one-dimensional cold atom arrays
Manuel Endres, Hannes Bernien, Alexander Keesling, Harry Levine, Eric R. Anschuetz, Alexandre Krajenbrink, Crystal Senko, Vladan Vuletic, Markus Greiner, Mikhail D. Lukin
Science 354, 1024 (2016)
Science perspective by Cindy Regal: Bringing order to neutral atom arrays
Highlighted in MIT News: Scientists set traps for atoms with single-particle precision
arXiv:1607.03044 (2016)
Pre-Caltech:
Bloch state tomography using Wilson lines
T. Li, L. Duca, M. Reitter, F. Grusdt, E. Demler, M. Endres, M. Schleier-Smith, I. Bloch, U. Schneider
Science 352, 1094 (2016)
arXiv:1509.02185
Destruction of string order after a quantum quench
M. C. Strinati, L. Mazza, M. Endres, D. Rossini, R. Fazio
Phys. Rev. B 94, 024302 (2016)
arXiv:1604.02823
Landau levels in strained optical lattices
Binbin Tian, Manuel Endres, David Pekker
Phys. Rev. Lett. 115, 236803 (2015)
arXiv version
The Massive Goldstone (Higgs) Mode in Two-Dimensional Ultra-cold Atomic Lattice Systems
L. Liu, K. Chen, M. Endres, Y. Deng, L. Pollet, N. Prokof'ev
Phys. Rev. B 92, 174521 (2015)
Highlighted as an editor's suggestion
arXiv version
Spatially Resolved Detection of a Spin-Entanglement Wave in a Bose-Hubbard Chain
T. Fukuhara, S. Hild, J. Zeiher, P. Schauß, I. Bloch, M. Endres, .C. Gross
Phys. Rev. Lett. 115, 035302 (2015)
Featured in a Physics Viewpoint by Phillip Hauke: Zooming in on Entanglement
arXiv version
Quantum simulation: Choose your own interaction
J. Thompson, M. Endres
Nature Photonics, News and Views (2015)
Detecting two-site spin-entanglement in many-body systems with local particle-number fluctuations
L. Mazza, D. Rossini, R. Fazio, M. Endres
New J. Phys. 17, 013015 (2015)
arXiv version
Out-of-equilibrium dynamics and thermalization of string order
L. Mazza, D. Rossini, M. Endres, R. Fazio
Phys. Rev. B, Rapid Communication 90, 020301 (2014)
arXiv version
Probing Correlated Quantum Many-Body Systems at the Single-Particle Level
M. Endres
Springer Theses ISBN 978-3-319-05753-8 (2014)
free version
Single-site- and single-atom-resolved measurement of correlation functions.
M. Endres, M. Cheneau, T. Fukuhara, C. Weitenberg, P. Schauß, C. Gross, L. Mazza, M.C. Banuls, L. Pollet, I. Bloch, S. Kuhr
Appl. Phys. B 113, 27-39 (2013)
arXiv version
Microscopic observation of magnon bound states and their dynamics
T. Fukuhara, P. Schauß, M. Endres, S. Hild, M. Cheneau, I. Bloch, C. Gross
Nature 502, 76-79 (2013)
Featured in a News & Views by Sougato Bose: Quantum togetherness
arXiv version
Non-local order in Mott insulators, Duality and Wilson Loops
S. P. Rath, W. Simeth, M. Endres, W. Zwerger
Ann. Phys. 334, 256-271 (2013)
arXiv version
Quantum dynamics of a mobile spin impurity
T. Fukuhara, A. Kantian, M. Endres, M. Cheneau, P. Schauß, S. Hild, D. Bellem, U. Schollwöck, T. Giamarchi, C. Gross, I. Bloch, S. Kuhr
Nature Phys. 9, 235–241 (2013)
Featured in a News & Views by Patrick Windpassinger: Spins on the move
arXiv version
Observation of spatially ordered structures in a two-dimensional Rydberg gas
P. Schauß, M. Cheneau, M. Endres, T. Fukuhara, S. Hild, A. Omran, T. Pohl, C. Gross, S. Kuhr, I. Bloch
Nature 491, 87-91 (2012)
arXiv version
The ‘Higgs’ amplitude mode at the two-dimensional superfluid/Mott insulator transition
M. Endres, T. Fukuhara, D. Pekker, M. Cheneau, P. Schauß, C. Gross, E. Demler, S. Kuhr, I. Bloch
Nature 487, 454-458 (2012)
Featured in the Journal Club for Condensed Matter by Subir Sachdev: The Higgs mode in condensed matter
arXiv
Light-cone-like spreading of correlations in a quantum many-body system
M. Cheneau, P. Barmettler, D. Poletti, M. Endres, P. Schauß, T. Fukuhara, C. Gross, I. Bloch, C. Kollath, S. Kuhr
Nature 481, 484-487 (2012)
arXiv version
Observation of Correlated Particle-Hole Pairs and String Order in Low-Dimensional Mott Insulators
M. Endres, M. Cheneau, T. Fukuhara, C. Weitenberg, P. Schauß, C. Gross, L. Mazza, M.C. Banuls, L. Pollet, I. Bloch, S. Kuhr
Science 334, 200-203 (2011)
arXiv version
Coherent light scattering from a two-dimensional Mott insulator
C. Weitenberg, P. Schauß, T. Fukuhara, M. Cheneau, M. Endres, I. Bloch, S. Kuhr
Phys. Rev. Lett. 106, 215301 (2011)
Featured in a Physics Viewpoint by Joseph Thywissen: Bragging Rights
arXiv version
Single-spin addressing in an atomic Mott insulator
C. Weitenberg, M. Endres, J. F. Sherson, M. Cheneau, P. Schauß, T. Fukuhara, I. Bloch, S. Kuhr
Nature 471, 319-324 (2011)
arXiv version
Single-atom-resolved fluorescence imaging of an atomic Mott insulator
J. F. Sherson, C. Weitenberg, M. Endres, M. Cheneau, I. Bloch, S. Kuhr
Nature 467, 68-72 (2010)
arXiv versionarXiv:2308.07914arXiv:2410.05181arXiv:2506.21963