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Interaction-induced excited-band condensate in a double-well optical lattice, Q. Zhou, J. V. Porto, and S. Das Sarma , Phys. Rev. A, 84, 031607 (2011)
Universal Thermometry for Quantum Simulation, Q. Zhou, and T-L. Ho , Phys. Rev. Lett., 106, 225301 (2011)
Signature of Quantum Criticality in the Density Profiles of Cold Atom Systems, Q. Zhou, and T-L. Ho , Phys. Rev. Lett., 105 (2010)
Optical logic gates using coherent feedback, Z. Zhou, C. Liu, Y. Fang, J. Zhou, R. T. Glasser, L. Chen, J. Jing, and W. Zhang , APPLIED PHYSICS LETTERS, 101 (2012)
Training of quantum circuits on a hybrid quantum computer, D.. Zhu, N.. M. Linke, M.. Benedetti, K.. A. Landsman, N.. H. Nguyen, C.. H. Alderete, A.. Perdomo-Ortiz, N.. Korda, A.. Garfoot, C.. Brecque, et al. , Science Advances, 5 (2019)
Measurement of many-body chaos using a quantum clock, G. Zhu, M. Hafezi, and T. Grover , PHYSICAL REVIEW A, 94, 062329 (2016)
Generation of thermofield double states and critical ground states with a quantum computer, D.. Zhu, S.. Johri, N.. M. Linke, K.. A. Landsman, H. C. Alderete, N.. H. Nguyen, A.. Y. Matsuura, T.. H. Hsieh, and C.. Monroe , Proc. Natl. Acad. Sci. U. S. A., 117, 25402–25406 (2020)
Hardware-efficient fermionic simulation with a cavity-QED system, G. Zhu, Y. Subasi, J. D. Whitfield, and M. Hafezi , NPJ QUANTUM INFORMATION, 4, 16 (2018)
Instantaneous braids and Dehn twists in topologically ordered states, G. Zhu, A. Lavasani, and M. Barkeshli , Phys. Rev. B, 102, 075105 (2020)
Quantum origami: Transversal gates for quantum computation and measurement of topological order, G. Zhu, M. Hafezi, and M. Barkeshli , Phys. Rev. Res., 2 (2020)
Universal Logical Gates on Topologically Encoded Qubits via Constant-Depth Unitary Circuits, G. Zhu, A. Lavasani, and M. Barkeshli , Phys. Rev. Lett., 125, 050502 (2020)
Heteronuclear molecules in an optical dipole trap, J. J. Zirbel, K. - K. Ni, S. Ospelkaus, T. L. Nicholson, M. Olsen, P. S. Julienne, C. Wieman, J. Ye, and D. S. Jin , Phys. Rev. A, 78 (2008)
Particle-hole symmetric localization in optical lattices using time modulated random on-site potentials, Y. Zou, R. Barnett, and G. Refael , Phys. Rev. B, 82 (2010)
Precise Characterization of Li-6 Feshbach Resonances Using Trap-Sideband-Resolved RF Spectroscopy of Weakly Bound Molecules, G. Zuern, T. Lompe, A. N. Wenz, S. Jochim, P. S. Julienne, and J. M. Hutson , Phys. Rev. Lett., 110 (2013)
Autotuning of Double-Dot Devices In Situ with Machine Learning, J. P. Zwolak, T. McJunkin, S. S. Kalantre, J.P.. Dodson, E.R.. MacQuarrie, D.E.. Savage, M.G.. Lagally, S.N.. Coppersmith, M. A. Eriksson, and J. M. Taylor , Phys. Rev. Applied, 13, 034075 (2020)
QFlow lite dataset: A machine-learning approach to the charge states in quantum dot experiments, J. P. Zwolak, S. S. Kalantre, X. Wu, S. Ragole, and J. M. Taylor , PLOS ONE, 13, e0205844 (2018)

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