Christopher Monroe
Affiliations: | Physics | University of Maryland, College Park, College Park, MD |
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"Christopher Monroe"Mean distance: 14.46
Parents
Sign in to add mentor| Carl Edwin Wieman | grad student | 1992 | |
| David J. Wineland | post-doc | 1992-1994 | NIST |
| David J. Wineland | research scientist | 1994-2000 | NIST |
Children
Sign in to add trainee| Patrick Becker | grad student | 2016- | University of Maryland |
| David L. Hayes | grad student | 2012 | University of Maryland |
| Kazi Rajibul Islam | grad student | 2012 | University of Maryland |
| Simcha Korenblit | grad student | 2013 | University of Maryland |
| Jonathan A. Mizrahi | grad student | 2013 | University of Maryland |
| Timothy A. Manning | grad student | 2014 | University of Maryland |
| Boris B. Blinov | post-doc | ||
| Martin Lichtman | post-doc | University of Maryland, NIST, JQI | |
| Ming-Shien Chang | post-doc | 2006-2008 | University of Maryland |
| Dzmitry Matsukevich | post-doc | 2007-2010 | University of Maryland |
| Le Luo | post-doc | 2008-2011 | |
| Grahame D Vittorini | post-doc | 2013-2015 | Duke |
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Publications
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| Katz O, Cetina M, Monroe C. (2022) N-Body Interactions between Trapped Ion Qubits via Spin-Dependent Squeezing. Physical Review Letters. 129: 063603 |
| Egan L, Debroy DM, Noel C, et al. (2021) Fault-tolerant control of an error-corrected qubit. Nature |
| Francis A, Zhu D, Huerta Alderete C, et al. (2021) Many-body thermodynamics on quantum computers via partition function zeros. Science Advances. 7 |
| Pagano G, Bapat A, Becker P, et al. (2020) Quantum approximate optimization of the long-range Ising model with a trapped-ion quantum simulator. Proceedings of the National Academy of Sciences of the United States of America |
| Kaplan HB, Guo L, Tan WL, et al. (2020) Many-Body Dephasing in a Trapped-Ion Quantum Simulator. Physical Review Letters. 125: 120605 |
| Feng L, Tan WL, De A, et al. (2020) Efficient Ground-State Cooling of Large Trapped-Ion Chains with an Electromagnetically-Induced-Transparency Tripod Scheme. Physical Review Letters. 125: 053001 |
| Huerta Alderete C, Singh S, Nguyen NH, et al. (2020) Quantum walks and Dirac cellular automata on a programmable trapped-ion quantum computer. Nature Communications. 11: 3720 |
| Monroe C. (2020) Quantum computing: how conditions created by the COVID-19 shutdown are delivering 'the best data we have ever seen'. Nature. 583: 10 |
| Else DV, Monroe C, Nayak C, et al. (2020) Discrete Time Crystals Annual Review of Condensed Matter Physics. 11: 467-499 |
| Nam Y, Chen J, Pisenti NC, et al. (2020) Ground-state energy estimation of the water molecule on a trapped-ion quantum computer Npj Quantum Information. 6 |