Export 944 results:
Author [ Title(Desc)] Type Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
S. S. Kalantre, Zwolak, J. P., Ragole, S., Wu, X., Zimmerman, N. M., Stewart, M. D., and Taylor, J. M., Machine Learning techniques for state recognition and auto-tuning in quantum dots, 2017.
A. Seif, Hafezi, M., and Jarzynski, C., Machine learning the thermodynamic arrow of time, Nat. Phys., pp. 1-9, 2020.
S. Guo, Fritsch, A. R., Greenberg, C., Spielman, I. B., and Zwolak, J. P., Machine-learning enhanced dark soliton detection in Bose-Einstein condensates, 2021.
C. R. Murray, Gorshkov, A. V., and Pohl, T., Many-body decoherence dynamics and optimised operation of a single-photon switch, New Journal of Physics, vol. 18, p. 092001, 2016.
H. B. Kaplan, Guo, L., Tan, W. Lin, De, A., Marquardt, F., Pagano, G., and Monroe, C., Many-Body Dephasing in a Trapped-Ion Quantum Simulator, Phys. Rev. Lett., vol. 125, no. 120605, 2020.
K. R. A. Hazzard, Gadway, B., Foss-Feig, M., Yan, B., Moses, S. A., Covey, J. P., Yao, N. Y., Lukin, M. D., Ye, J., Jin, D. S., and Rey, A. Maria, Many-body dynamics of dipolar molecules in an optical lattice, Physical Review Letters, vol. 113, no. 19, 2014.
J. Smith, Lee, A., Richerme, P., Neyenhuis, B., Hess, P. W., Hauke, P., Heyl, M., Huse, D. A., and Monroe, C., Many-body localization in a quantum simulator with programmable random disorder, Nature Physics, 2016.
A. M. Rey, Gorshkov, A. V., and Rubbo, C., Many-Body Treatment of the Collisional Frequency Shift in Fermionic Atoms, Phys. Rev. Lett., vol. 103, p. 260402, 2009.
Z. Bian, Chudak, F., Israel, R., Lackey, B., Macready, W. G., and Roy, A., Mapping constrained optimization problems to quantum annealing with application to fault diagnosis, 2016.
Z. Bian, Chudak, F., Israel, R. Brian, Lackey, B., Macready, W. G., and Roy, A., Mapping contrained optimization problems to quantum annealing with application to fault diagnosis, Frontiers in ICT, vol. 3, p. 14, 2016.
A. Sundaram and Lackey, B., Mathematical methods for resource-based type theories, 2018.
E. Chitambar, Miller, C., and Shi, Y., Matrix pencils and entanglement classification, Journal of Mathematical Physics, vol. 51, no. 7, p. 072205, 2010.
F. Andreoli, Gullans, M., High, A. A., Browaeys, A., and Chang, D. E., Maximum Refractive Index of an Atomic Medium, Physical Review X, vol. 11, no. 1, 2021.
J. Bub, Maxwell's demon and the thermodynamics of computation, 2002.
J. Gea-Banacloche, Rey, A. Maria, Pupillo, G., Williams, C. J., and Clark, C. W., Mean-field treatment of the damping of the oscillations of a 1D Bose gas in an optical lattice , Physical Review A, vol. 73, no. 1, 2006.
L. Kocia and Love, P., Measurement Contextuality and Planck's Constant, New Journal of Physics , vol. 20, no. 7, p. 073020, 2018.
J. Bub, The Measurement Problem from the Perspective of an Information Theoretic Interpretation of Quantum Mechanics, Entropy, vol. 17, no. 11, pp. 7374-7386, 2015.
H. Pichler, Zhu, G., Seif, A., Zoller, P., and Hafezi, M., Measurement Protocol for the Entanglement Spectrum of Cold Atoms, Phys. Rev. X , vol. 6(4), no. 041033, 2016.
D. Carney, Krnjaic, G., Moore, D. C., Regal, C. A., Afek, G., Bhave, S., Brubaker, B., Corbitt, T., Cripe, J., Crisosto, N., .Geraci, A., Ghosh, S., Harris, J. G. E., Hook, A., Kolb, E. W., Kunjummen, J., Lang, R. F., Li, T., Lin, T., Liu, Z., Lykken, J., Magrini, L., Manley, J., Matsumoto, N., Monte, A., Monteiro, F., Purdy, T., Riedel, C. J., Singh, R., Singh, S., Sinha, K., Taylor, J. M., Qin, J., Wilson, D. J., and Zhao, Y., Mechanical Quantum Sensing in the Search for Dark Matter, 2020.
H. Fu, Miller, C., and Slofstra, W., The membership problem for constant-sized quantum correlations is undecidable, 2021.
P. Bienias, Seif, A., and Hafezi, M., Meta Hamiltonian Learning, 2021.
B. Lackey, Metric Equivalence of Path Spaces, Nonlinear Studies, vol. 7, no. 2, 2000.
R. Belyansky, Bienias, P., Kharkov, Y. A., Gorshkov, A. V., and Swingle, B., Minimal model for fast scrambling, Phys. Rev. Lett., vol. 125, no. 130601, 2020.
J. Chen, Ji, Z., Kribs, D. W., and Zeng, B., Minimum Entangling Power is Close to Its Maximum, 2012.
J. Chen and Johnston, N., The Minimum Size of Unextendible Product Bases in the Bipartite Case (and Some Multipartite Cases) , Communications in Mathematical Physics, vol. 333, no. 1, pp. 351 - 365, 2015.