“Quantum Gates on Individually-Addressed Atomic Qubits Subject to Noisy Transverse Motion,” M. Cetina, L. N. Egan, C. A. Noel, M. L. Goldman, A. R. Risinger, D. Zhu, D. Biswas, and C. Monroe, arXiv:2007.06768 (2020)
“Multimode Time-Delay Interferometer for Free-Space Quantum Communication.” C Cahall, NT Islam, DJ Gauthier, and J Kim. Physical Review Applied 13, no. 2 (2020)
“Two-qubit entangling gates within arbitrarily long chains of trapped ions,” K. A. Landsman, Y. Wu, P. H. Leung, D. Zhu, N. M. Linke, K. R. Brown, L.-M. Duan, and C. Monroe, Phys. Rev. A 100, 022332 (2019).
“Heisenberg-Scaling Measurement Protocol for Analytic Functions with Quantum Sensor Networks,” K. Qian, Z. Eldredge, W. Ge, G. Pagano, C. Monroe, J. V. Porto, and A. V. Gorshkov, Phys. Rev. A 100, 042304 (2019).
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, L. Egan, O. Perdomo, and C. Monroe, Science Advances 5, eaaw9918 (2019).
“Parallel Entangling Operations on a Universal Ion Trap Quantum Computer,” C. Figgatt, A. Ostrander, N. M. Linke, K. A Landsman, D. Zhu, D. Maslov, C. Monroe, Nature 567, 61 (2019)
“High Purity Single Photons Entangled with an Atomic Memory,” C. Crocker, M. Lichtman, K. Sosnova, A. Carter, S. Scarano, and C. Monroe, Optics Express Vol. 27, Issue 20, pp. 28143-28149 (2019).
“Scalable high-rate, high-dimensional time-bin encoding quantum key distribution.” NT Islam, CCW Lim, C Cahall, B Qi, J Kim, and DJ Gauthier. Quantum Science and Technology 4, no. 3 (2019).
Alibaba Cloud Quantum Development Platform: Large-Scale Classical Simulation of Quantum Circuits, F. Zhang, C. Huang, M. Newman, J. Cai, H. Yu, Z. Tian, B. Yuan, H. Xu, J. Wu, X. Gao, J. Chen, M. Szegedy, and Y. Shi, arXiv:1907.11217
“Quantum repeaters based on two species trapped ions,” Santra, S. Muralidharan, M. Lichtman, L. Jiang, C. Monroe, and V. S. Malinovsky, New J. Phys. 21 073002 (2019)
“Cryogenic Trapped-Ion System for Large Scale Quantum Simulation,” G. Pagano, P.W. Hess, H. B. Kaplan, W. L. Tan, P. Richerme, P. Becker, A. Kyprianidis, J. Zhang, E. Birckelbaw, M. R. Hernandez, Y. Wu, C. Monroe, Quantum Sci. Tech. 4, 014004 (2018).
“Bounding the outcome of a two-photon interference measurement using weak coherent states,” A Aragoneses, NT Islam, M Eggleston, A Lezama, J Kim, and DJ Gauthier, Optics Letters 43, no. 16 (2018): 3806-3809.
“High-rate time-bin quantum key distribution using quantum-controlled measurement.” NT Islam, CCW Lim, C Cahall, B Qi, J Kim, and DJ Gauthier. In Optics Infobase Conference Papers. Vol. Part F93-CLEO_QELS 2018. 2018.
“Photon-number resolution in conventional superconducting nanowire single-photon detectors: Theoretical predictions.” KL Nicolich, C Cahall, NT Islam, GP Lafyatis, J Kim, and DJ Gauthier. In Optics Infobase Conference Papers. Vol. Part F92-CLEO_AT 2018. 2018.
“Photon-number resolution in conventional superconducting nanowire single-photon detectors: Experimental demonstration.” C Cahall, KL Nicolich, NT Islam, GP Lafyatis, AJ Miller, DJ Gauthier, and J Kim. In Optics Infobase Conference Papers. Vol. Part F93-CLEO_QELS 2018. 2018.
“A quantum computing performance simulator based on circuit failure probability and fault path counting.” A van Rynbach, M Ahsan, and J Kim. Acm Journal on Emerging Technologies in Computing Systems 14, no. 1 (2018): 1-17.
“Scalable cryogenic readout circuit for a superconducting nanowire single-photon detector system.” C Cahall, DJ Gauthier, and J Kim. Review of Scientific Instruments 89, no. 6 (2018).
“Securing quantum key distribution systems using fewer states.” NT Islam, CCW Lim, C Cahall, J Kim, and DJ Gauthier. Physical Review A 97, no. 4 (2018).
Entangling an arbitrary pair of qubits in a long ion chain, P.H. Leung and K.R. Brown, Phys. Rev. A 98, 032318 (2018)
Comparing Zeeman qubits to hyperfine qubits in the context of the surface code: 174Yb+ and 171Yb+, N.C. Brown and K.R. Brown, Phys. Rev. A 97, 052301 (2018)
“Multispecies Trapped-Ion Node for Quantum Networking,” I. V. Inlek, C. Crocker, M. Lichtman, K. Sosnova, and C. Monroe, Phys. Rev. Lett. 118, 250502, (2017). [Supplemental Material]
“Provably secure and high-rate quantum key distribution with time-bin qudits.” NT Islam, CCW Lim, C Cahall, J Kim, and DJ Gauthier. Science Advances 3, no. 11 (2017)
“Robust and Stable Delay Interferometers with Application to d -Dimensional Time-Frequency Quantum Key Distribution.” NT Islam, C Cahall, A Aragoneses, A Lezama, J Kim, and DJ Gauthier. Physical Review Applied 7, no. 4 (2017)
“Quantum Connections and the Modular Quantum Computer,” C. Monroe, R. J. Schoelkopf, and M. D. Lukin, Scientific American, p. 50 (May, 2016)
“Optimal architectures for long distance quantum communication.” S Muralidharan, L Li, J Kim, N Lütkenhaus, MD Lukin, and L Jiang. Scientific Reports 6 (2016)
“Scalable digital hardware for a trapped ion quantum computer.” E Mount, D Gaultney, G Vrijsen, M Adams, SY Baek, K Hudek, L Isabella, S Crain, A van Rynbach, P Maunz et al. Quantum Information Processing 15, no. 12 (2016): 5281-5298