Demonstration of a small programmable quantum computer with atomic qubits S Debnath, NM Linke, C Figgatt, KA Landsman, K Wright, C Monroe Nature 536 (7614), 63-66, 2016 | 900 | 2016 |
Experimental comparison of two quantum computing architectures NM Linke, D Maslov, M Roetteler, S Debnath, C Figgatt, KA Landsman, ... Proceedings of the National Academy of Sciences 114 (13), 3305-3310, 2017 | 611 | 2017 |
Benchmarking an 11-qubit quantum computer K Wright, KM Beck, S Debnath, JM Amini, Y Nam, N Grzesiak, JS Chen, ... Nature communications 10 (1), 5464, 2019 | 600 | 2019 |
Modular entanglement of atomic qubits using photons and phonons D Hucul, IV Inlek, G Vittorini, C Crocker, S Debnath, SM Clark, C Monroe Nature Physics 11 (1), 37-42, 2014 | 369 | 2014 |
Ground-state energy estimation of the water molecule on a trapped-ion quantum computer Y Nam, JS Chen, NC Pisenti, K Wright, C Delaney, D Maslov, KR Brown, ... npj Quantum Information 6 (1), 33, 2020 | 329 | 2020 |
Complete 3-qubit Grover search on a programmable quantum computer C Figgatt, D Maslov, KA Landsman, NM Linke, S Debnath, C Monroe Nature communications 8 (1), 1918, 2017 | 285 | 2017 |
Optimal Quantum Control of Multimode Couplings between Trapped Ion Qubits for Scalable Entanglement T Choi, S Debnath, TA Manning, C Figgatt, ZX Gong, LM Duan, C Monroe Physical review letters 112 (19), 190502, 2014 | 209 | 2014 |
Fault-tolerant quantum error detection NM Linke, M Gutierrez, KA Landsman, C Figgatt, S Debnath, KR Brown, ... Science Advances 3 (10), e1701074, 2017 | 200 | 2017 |
Coherent error suppression in multiqubit entangling gates D Hayes, SM Clark, S Debnath, D Hucul, IV Inlek, KW Lee, Q Quraishi, ... Physical review letters 109 (2), 020503, 2012 | 141 | 2012 |
Tripartite Entanglement versus Tripartite Nonlocality in Three-Qubit<? format?> Greenberger-Horne-Zeilinger-Class States S Ghose, N Sinclair, S Debnath, P Rungta, R Stock Physical review letters 102 (25), 250404, 2009 | 115 | 2009 |
Efficient arbitrary simultaneously entangling gates on a trapped-ion quantum computer N Grzesiak, R Blümel, K Wright, KM Beck, NC Pisenti, M Li, V Chaplin, ... Nature communications 11 (1), 2963, 2020 | 104 | 2020 |
Nearest centroid classification on a trapped ion quantum computer S Johri, S Debnath, A Mocherla, A Singk, A Prakash, J Kim, I Kerenidis npj Quantum Information 7 (1), 122, 2021 | 82 | 2021 |
Observation of hopping and blockade of bosons in a trapped ion spin chain S Debnath, NM Linke, ST Wang, C Figgatt, KA Landsman, LM Duan, ... Physical review letters 120 (7), 073001, 2018 | 53 | 2018 |
Beat note stabilization of mode-locked lasers for quantum information processing Optics letters 39 (11), 3238-3241, 2014 | 48 | 2014 |
A programmable five qubit quantum computer using trapped atomic ions S Debnath University of Maryland, College Park, 2016 | 33 | 2016 |
An analytical approach for predicting fin performance of triangular fins subject to simultaneous heat and mass transfer B Kundu, D Barman, S Debnath International journal of refrigeration 31 (6), 1113-1120, 2008 | 27 | 2008 |
Multiqubit nonlocality in families of 3-and 4-qubit entangled states S Ghose, S Debnath, N Sinclair, A Kabra, R Stock Journal of Physics A: Mathematical and Theoretical 43 (44), 445301, 2010 | 16 | 2010 |
Optical control of atomic quantum bits for phase control of operation C Monroe, M Cetina, N Linke, S Debnath US Patent 11,004,009, 2021 | 9 | 2021 |
Experimental demonstration of quantum fault tolerance NM Linke, M Gutierrez, KA Landsman, C Figgatt, S Debnath, KR Brown, ... arXiv preprint arXiv:1611.06946, 2016 | 9 | 2016 |
Demonstration of a programmable quantum computer module S Debnath, NM Linke, C Figgatt, KA Landsman, K Wright, C Monroe arXiv preprint arXiv:1603.04512, 0 | 6 | |