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A. M. Childs and Ge, Y., Spatial search by continuous-time quantum walks on crystal lattices, Physical Review A, vol. 89, no. 5, 2014.
A. M. Childs, Leung, D. W., Verstraete, F., and Vidal, G., Asymptotic entanglement capacity of the Ising and anisotropic Heisenberg interactions , 2002.
A. M. Childs, Leung, D., Mancinska, L., and Ozols, M., Characterization of universal two-qubit Hamiltonians, 2010.
A. M. Childs, Leung, D. W., and Nielsen, M. A., Unified derivations of measurement-based schemes for quantum computation, Physical Review A, vol. 71, no. 3, 2005.
A. M. Childs and Kothari, R., Limitations on the simulation of non-sparse Hamiltonians, 2009.
A. M. Childs, Su, Y., Tran, M. C., Wiebe, N., and Zhu, S., Theory of Trotter Error with Commutator Scaling, Phys. Rev. X, vol. 11, no. 1, p. 49, 2021.
A. M. Childs, Li, T., Liu, J. - P., Wang, C., and Zhang, R., Quantum Algorithms for Sampling Log-Concave Distributions and Estimating Normalizing Constants, Advances in Neural Information Processing Systems (NeurIPS 2022), vol. 35, no. 23205, 2022.
A. M. Childs and Gosset, D., Levinson's theorem for graphs II, Journal of Mathematical Physics, vol. 53, no. 10, p. 102207, 2012.
A. M. Childs, Universal computation by quantum walk, Physical Review Letters, vol. 102, no. 18, 2009.
A. M. Childs, Farhi, E., Goldstone, J., and Gutmann, S., Finding cliques by quantum adiabatic evolution, 2000.
C. Chin, Vuletic, V., Kerman, A. J., Chu, S., Tiesinga, E., Leo, P. J., and Williams, C. J., Ultracold Cs$_2$ Feshbach Spectroscopy, 2003.
C. Chin, Grimm, R., Julienne, P., and Tiesinga, E., Feshbach Resonances in Ultracold Gases, Reviews of Modern Physics, vol. 82, no. 2, pp. 1225 - 1286, 2010.
E. Chitambar, Miller, C., and Shi, Y., Matrix pencils and entanglement classification, Journal of Mathematical Physics, vol. 51, no. 7, p. 072205, 2010.
E. Chitambar, Miller, C., and Shi, Y., Deciding Unitary Equivalence Between Matrix Polynomials and Sets of Bipartite Quantum States, Quantum Information and Computation, vol. 11, no. 9-10, pp. 813–819, 2011.
A. Chotia, Neyenhuis, B., Moses, S. A., Yan, B., Covey, J. P., Foss-Feig, M., Rey, A. Maria, Jin, D. S., and Ye, J., Long-lived dipolar molecules and Feshbach molecules in a 3D optical lattice , Physical Review Letters, vol. 108, no. 8, 2012.
S. - K. Chu, Ma, C. - T., and Wu, C. - H., Two-Dimensional Dilaton Gravity Theory and Lattice Schwarzian Theory, 2018.
S. - K. Chu, Zhu, G., Garrison, J. R., Eldredge, Z., Curiel, A. Valdés, Bienias, P., Spielman, I. B., and Gorshkov, A. V., Scale-Invariant Continuous Entanglement Renormalization of a Chern Insulator, Phys. Rev. Lett, vol. 122, no. 120502, 2019.
K. - M. Chung, Lee, Y., Lin, H. - H., and Wu, X., Constant-round Blind Classical Verification of Quantum Sampling, 2020.
M. Ciamp, Cojocaru, A., Kashefi, E., and Mantri, A., Secure Quantum Two-Party Computation: Impossibility and Constructions, 2020.
Z. - P. Cian, Zhu, G., Chu, S. - K., Seif, A., DeGottardi, W., Jiang, L., and Hafezi, M., Photon pair condensation by engineered dissipation, Phys. Rev. Lett. , vol. 123, no. 063602, 2019.
Z. - P. Cian, Hafezi, M., and Barkeshli, M., Extracting Wilson loop operators and fractional statistics from a single bulk ground state, 2022.
R. Clifton, Bub, J., and Halvorson, H., Characterizing quantum theory in terms of information-theoretic constraints, Foundations of Physics, vol. 33, no. 11, pp. 1561 - 1591, 2002.
I. C. Cloët, Dietrich, M. R., Arrington, J., Bazavov, A., Bishof, M., Freese, A., Gorshkov, A. V., Grassellino, A., Hafidi, K., Jacob, Z., McGuigan, M., Meurice, Y., Meziani, Z. - E., Mueller, P., Muschik, C., Osborn, J., Otten, M., Petreczky, P., Polakovic, T., Poon, A., Pooser, R., Roggero, A., Saffman, M., VanDevender, B., Zhang, J., and Zohar, E., Opportunities for Nuclear Physics & Quantum Information Science, 2019.
N. J. Coble and Coudron, M., Quasi-polynomial time approximation of output probabilities of geometrically-local, shallow quantum circuits, 2020.
N. J. Coble, Coudron, M., Nelson, J., and Nezhadi, S. Sajjad, Hamiltonians whose low-energy states require $\Omega(n)$ T gates, 2023.