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Journal Article

M. Mudassar, Chien, R. W., and Gottesman, D., “Encoding Majorana codes”, 2024.

F. Caravelli, Yan, B., García-Pintos, L. Pedro, and Hamma, A., “Energy storage and coherence in closed and open quantum batteries”, Quantum, vol. 5, p. 505, 2021.

L. E. Hillberry, Jones, M. T., Vargas, D. L., Rall, P., Halpern, N. Yunger, Bao, N., Notarnicola, S., Montangero, S., and Carr, L. D., “Entangled quantum cellular automata, physical complexity, and Goldilocks rules”, Quantum Science and Technology, vol. 6, p. 045017, 2021.

M. Foss-Feig, Gong, Z. - X., Gorshkov, A. V., and Clark, C. W., “Entanglement and spin-squeezing without infinite-range interactions”, 2016.

Z. Eldredge, Zhou, L., Bapat, A., Garrison, J. R., Deshpande, A., Chong, F. T., and Gorshkov, A. V., “Entanglement Bounds on the Performance of Quantum Computing Architectures”, Phys. Rev. Research, vol. 2, no. 033316, 2020.

J. Chen, Cubitt, T. S., Harrow, A. W., and Smith, G., “Entanglement can completely defeat quantum noise”, Physical Review Letters, vol. 107, no. 25, 2011.

J. Chen, Cubitt, T. S., Harrow, A. W., and Smith, G., “Entanglement can completely defeat quantum noise”, Physical Review Letters, vol. 107, no. 25, 2011.

M. Van Regemortel, Cian, Z. - P., Seif, A., Dehghani, H., and Hafezi, M., “Entanglement entropy scaling transition under competing monitoring protocols”, 2020.

J. Cotler, Hayden, P., Penington, G., Salton, G., Swingle, B., and Walter, M., “Entanglement Wedge Reconstruction via Universal Recovery Channels”, 2017.

Y. - A. Chen, Gorshkov, A. V., and Xu, Y., “Error-correcting codes for fermionic quantum simulation”, 2022.

J. Yu, Chen, Y. - A., and Sarma, S. Das, “Euler-obstructed Cooper pairing: Nodal superconductivity and hinge Majorana zero modes”, Physical Review B, vol. 105, 2022.

Q. Wang, Cian, Z. - P., Li, M., Markov, I. L., and Nam, Y., “Ever more optimized simulations of fermionic systems on a quantum computer”, 2023.

A. M. Childs, Reichardt, B. W., Spalek, R., and Zhang, S., “Every NAND formula of size N can be evaluated in time N^1/2+o(1) on a quantum computer ”, 2007.

A. M. Childs, Patterson, R. B., and MacKay, D. J. C., “Exact sampling from non-attractive distributions using summary states”, Physical Review E, vol. 63, no. 3, 2001.

Y. - A. Chen and Hsin, P. - S., “Exactly Solvable Lattice Hamiltonians and Gravitational Anomalies”, 2021.

A. M. Childs, Farhi, E., and Gutmann, S., “An example of the difference between quantum and classical random walks”, Quantum Information Processing, vol. 1, no. 1/2, pp. 35 - 43, 2001.

J. Chen, Duan, R., Ji, Z., Ying, M., and Yu, J., “Existence of Universal Entangler”, Journal of Mathematical Physics, vol. 49, no. 1, p. 012103, 2008.

P. Bienias, Gullans, M., Kalinowski, M., Craddock, A. N., Ornelas-Huerta, D. P., Rolston, S. L., Porto, J. V., and Gorshkov, A. V., “Exotic photonic molecules via Lennard-Jones-like potentials”, Phys. Rev. Lett., vol. 125, no. 093601, 2020.

L. Lewis, Zhu, D., Gheorghiu, A., Noel, C., Katz, O., Harraz, B., Wang, Q., Risinger, A., Feng, L., Biswas, D., Egan, L., Vidick, T., Cetina, M., and Monroe, C., “Experimental Implementation of an Efficient Test of Quantumness”, 2022.

P. Bierhorst, Knill, E., Glancy, S., Mink, A., Jordan, S. P., Rommal, A., Liu, Y. - K., Christensen, B., Nam, S. Woo, and Shalm, L. K., “Experimentally Generated Random Numbers Certified by the Impossibility of Superluminal Signaling”, 2017.

P. Bierhorst, Knill, E., Glancy, S., Zhang, Y., Mink, A., Jordan, S., Rommal, A., Liu, Y. - K., Christensen, B., Nam, S. Woo, Stevens, M. J., and Shalm, L. K., “Experimentally Generated Randomness Certified by the Impossibility of Superluminal Signals”, Nature, vol. 556, pp. 223-226, 2018.

A. M. Childs, Cleve, R., Deotto, E., Farhi, E., Gutmann, S., and Spielman, D. A., “Exponential algorithmic speedup by quantum walk”, 2002.

A. M. Childs, Cleve, R., Deotto, E., Farhi, E., Gutmann, S., and Spielman, D. A., “Exponential algorithmic speedup by quantum walk”, 2002.

D. W. Berry, Childs, A. M., Cleve, R., Kothari, R., and Somma, R. D., “Exponential improvement in precision for simulating sparse Hamiltonians”, Proceedings of the 46th ACM Symposium on Theory of Computing (STOC 2014), pp. 283-292, 2014.

D. W. Berry, Childs, A. M., Cleve, R., Kothari, R., and Somma, R. D., “Exponential improvement in precision for simulating sparse Hamiltonians”, Proceedings of the 46th ACM Symposium on Theory of Computing (STOC 2014), pp. 283-292, 2014.

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