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A
M. S. J. Horvath, Thomas, R., Tiesinga, E., Deb, A. B., and Kjærgaard, N., Above threshold scattering about a Feshbach resonance for ultracold atoms in an optical collider, Nature Communications, vol. 8, no. 452, 2017.
K. Seetharam, Titum, P., Kolodrubetz, M., and Refael, G., Absence of Thermalization in Finite Isolated Interacting Floquet Systems, Physical Review B, vol. 97, no. 1, p. 014311, 2018.
S. P. Jordan, Kobayashi, H., Nagaj, D., and Nishimura, H., Achieving perfect completeness in classical-witness quantum Merlin-Arthur proof systems, Quantum Information and Computation, vol. 12, no. 5-6, pp. 461-471, 2012.
K. Goral, Koehler, T., Gardiner, S. A., Tiesinga, E., and Julienne, P. S., Adiabatic association of ultracold molecules via magnetic field tunable interactions , Journal of Physics B: Atomic, Molecular and Optical Physics, vol. 37, no. 17, pp. 3457 - 3500, 2004.
D. Kafri and Taylor, J. M., Algorithmic Cooling of a Quantum Simulator, 2012.
A. Petrov, Tiesinga, E., and Kotochigova, S., Anisotropy induced Feshbach resonances in a quantum dipolar gas of magnetic atoms , Physical Review Letters, vol. 109, no. 10, 2012.
E. A. Goldschmidt, Boulier, T., Brown, R. C., Koller, S. B., Young, J. T., Gorshkov, A. V., Rolston, S. L., and Porto, J. V., Anomalous broadening in driven dissipative Rydberg systems, Physical Review Letters, vol. 116, no. 11, p. 113001, 2016.
G. Alagic, Jordan, S. P., Koenig, R., and Reichardt, B. W., Approximating Turaev-Viro 3-manifold invariants is universal for quantum computation , Physical Review A, vol. 82, no. 4, 2010.
J. S. Douglas, Habibian, H., Gorshkov, A. V., Kimble, H. J., and Chang, D. E., Atom induced cavities and tunable long-range interactions between atoms trapped near photonic crystals, Nature Photon. 9, 326 (2015), 2015.
J. P. Zwolak, McJunkin, T., Kalantre, S. S., Dodson, J. P., MacQuarrie, E. R., Savage, D. E., Lagally, M. G., Coppersmith, S. N., Eriksson, M. A., and Taylor, J. M., Auto-tuning of double dot devices in situ with machine learning, 2019.
C
M. F. Maghrebi, Rahi, S. Jamal, Emig, T., Graham, N., Jaffe, R. L., and Kardar, M., Casimir force between sharp-shaped conductors, Proceedings of the National Academy of Sciences, vol. 108, no. 17, pp. 6867 - 6871, 2011.
D. E. Chang, Jiang, L., Gorshkov, A. V., and Kimble, H. J., Cavity QED with atomic mirrors, New J. Phys., vol. 14, p. 063003, 2012.
D. Kafri, Taylor, J. M., and Milburn, G. J., A classical channel model for gravitational decoherence, New Journal of Physics, vol. 16, no. 6, p. 065020, 2014.
S. Ben-David, Bouland, A., Garg, A., and Kothari, R., Classical lower bounds from quantum upper bounds, 2018.
K. R. Brown, Kim, J., and Monroe, C., Co-Designing a Scalable Quantum Computer with Trapped Atomic Ions, 2016.
F. J. Marmolejo-Cossío, Brigham, E., Sela, B., and Katz, J., Competing (Semi)-Selfish Miners in Bitcoin, 2019.
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.