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Journal Article
G. Pagano, Hess, P. W., Kaplan, H. B., Tan, W. L., Richerme, P., Becker, P., Kyprianidis, A., Zhang, J., Birckelbaw, E., Hernandez, M. R., Wu, Y., and Monroe, C., Cryogenic Trapped-Ion System for Large Scale Quantum Simulation, 2018.
G. Pagano, Hess, P. W., Kaplan, H. B., Tan, W. L., Richerme, P., Becker, P., Kyprianidis, A., Zhang, J., Birckelbaw, E., Hernandez, M. R., Wu, Y., and Monroe, C., Cryogenic Trapped-Ion System for Large Scale Quantum Simulation, 2018.
I. Boettcher, Gorshkov, A. V., Kollár, A. J., Maciejko, J., Rayan, S., and Thomale, R., Crystallography of Hyperbolic Lattices, 2021.
Y. Wang, Subhankar, S., Bienias, P., Lacki, M., Tsui, T. - C., Baranov, M. A., Gorshkov, A. V., Zoller, P., Porto, J. V., and Rolston, S. L., Dark state optical lattice with sub-wavelength spatial structure, Phys. Rev. Lett., vol. 120, p. 083601, 2018.
Y. Wang, Subhankar, S., Bienias, P., Lacki, M., Tsui, T. - C., Baranov, M. A., Gorshkov, A. V., Zoller, P., Porto, J. V., and Rolston, S. L., Dark state optical lattice with sub-wavelength spatial structure, Phys. Rev. Lett., vol. 120, p. 083601, 2018.
N. Bao, Cao, C., and Zhu, G., Deconfinement and Error Thresholds in Holography, 2022.
N. Solmeyer, Linke, N. M., Figgatt, C., Landsman, K. A., Balu, R., Siopsis, G., and Monroe, C., Demonstration of Bayesian quantum game on an ion trap quantum computer, 2018.
A. Blanc, Liu, Y. - K., and Vahda, A., Designing Incentives for Peer-to-Peer Routing, Proc. INFOCOM, pp. 374-385, 2005.
J. Scherschligt, Fedchak, J. A., Barker, D. S., Eckel, S., Klimov, N., Makrides, C., and Tiesinga, E., Development of a new UHV/XHV pressure standard (cold atom vacuum standard), Metrologia, vol. 54, no. 6, 2017.
D. Awschalom, Berggren, K. K., Bernien, H., Bhave, S., Carr, L. D., Davids, P., Economou, S. E., Englund, D., Faraon, A., Fejer, M., Guha, S., Gustafsson, M. V., Hu, E., Jiang, L., Kim, J., Korzh, B., Kumar, P., Kwiat, P. G., Lončar, M., Lukin, M. D., Miller, D. A. B., Monroe, C., Nam, S. Woo, Narang, P., and Orcutt, J. S., Development of Quantum InterConnects for Next-Generation Information Technologies, 2019.
D. Awschalom, Berggren, K. K., Bernien, H., Bhave, S., Carr, L. D., Davids, P., Economou, S. E., Englund, D., Faraon, A., Fejer, M., Guha, S., Gustafsson, M. V., Hu, E., Jiang, L., Kim, J., Korzh, B., Kumar, P., Kwiat, P. G., Lončar, M., Lukin, M. D., Miller, D. A. B., Monroe, C., Nam, S. Woo, Narang, P., and Orcutt, J. S., Development of Quantum InterConnects for Next-Generation Information Technologies, 2019.
D. Awschalom, Berggren, K. K., Bernien, H., Bhave, S., Carr, L. D., Davids, P., Economou, S. E., Englund, D., Faraon, A., Fejer, M., Guha, S., Gustafsson, M. V., Hu, E., Jiang, L., Kim, J., Korzh, B., Kumar, P., Kwiat, P. G., Lončar, M., Lukin, M. D., Miller, D. A. B., Monroe, C., Nam, S. Woo, Narang, P., and Orcutt, J. S., Development of Quantum InterConnects for Next-Generation Information Technologies, 2019.
L. K. Shalm, Zhang, Y., Bienfang, J. C., Schlager, C., Stevens, M. J., Mazurek, M. D., Abellán, C., Amaya, W., Mitchell, M. W., Alhejji, M. A., Fu, H., Ornstein, J., Mirin, R. P., Nam, S. Woo, and Knill, E., Device-independent Randomness Expansion with Entangled Photons, Nat. Phys. , 2021.
J. Bringewatt, Dorland, W., Jordan, S. P., and Mink, A., Diffusion Monte Carlo Versus Adiabatic Computation for Local Hamiltonians, Physical Review A, vol. 97, no. 2, p. 022323, 2018.
K. Seetharam, Biswas, D., Noel, C., Risinger, A., Zhu, D., Katz, O., Chattopadhyay, S., Cetina, M., Monroe, C., Demler, E., and Sels, D., Digital quantum simulation of NMR experiments, Science Advances, vol. 9, 2023.
Y. Kharkov, Shtanko, O., Seif, A., Bienias, P., Van Regemortel, M., Hafezi, M., and Gorshkov, A. V., Discovering hydrodynamic equations of many-body quantum systems, 2021.
P. C. S. Costa, An, D., Babbush, R., and Berry, D., The discrete adiabatic quantum linear system solver has lower constant factors than the randomized adiabatic solver, 2023.
P. C. S. Costa, An, D., Babbush, R., and Berry, D., The discrete adiabatic quantum linear system solver has lower constant factors than the randomized adiabatic solver, 2023.
Z. Bian, Chudak, F., Israel, R., Lackey, B., Macready, W. G., and Roy, A., Discrete optimization using quantum annealing on sparse Ising models, Frontiers in Physics, vol. 2, p. 56, 2014.
C. L. Baldwin, Ehrenberg, A., Guo, A. Y., and Gorshkov, A. V., Disordered Lieb-Robinson bounds in one dimension, 2022.
J. T. Young, Boulier, T., Magnan, E., Goldschmidt, E. A., Wilson, R. M., Rolston, S. L., Porto, J. V., and Gorshkov, A. V., Dissipation induced dipole blockade and anti-blockade in driven Rydberg systems, Phys. Rev. A, vol. 97, p. 023424, 2018.
C. L. Baldwin, Shivam, S., Sondhi, S. L., and Kardar, M., Distinct Critical Behaviors from the Same State in Quantum Spin and Population Dynamics Perspectives, 2020.
M. Gullans, Krich, J. J., Taylor, J. M., Bluhm, H., Halperin, B. I., Marcus, C. M., Stopa, M., Yacoby, A., and Lukin, M. D., Dynamic Nuclear Polarization in Double Quantum Dots, Physical Review Letters, vol. 104, no. 22, 2010.
S. Kim, Taylor, J. M., and Bahl, G., Dynamic suppression of Rayleigh light scattering in dielectric resonators, 2018.
M. Foss-Feig, Hazzard, K. R. A., Bollinger, J. J., Rey, A. Maria, and Clark, C. W., Dynamical quantum correlations of Ising models on an arbitrary lattice and their resilience to decoherence , New Journal of Physics, vol. 15, no. 11, p. 113008, 2013.