Colloquium: Quantum and classical discrete time crystals,” Michael P. Zaletel, Mikhail Lukin, Christopher Monroe, Chetan Nayak, Frank Wilczek, and Norman Y. Yao, Rev. Mod. Phys. 95, 031001 (2023).


Many-body quantum teleportation via operator spreading in the traversable wormhole protocol,” T. Schuster, B. Kobrin, P. Gao, I. Cong, E. T. Khabiboulline, N. M. Linke, M. D. Lukin, C. Monroe, B. Yoshida, and N. Y. Yao, Phys. Rev. X Quantum 12, 031013 (2022).


Programmable Quantum Simulations of Spin Systems with Trapped Ions,” C. Monroe, W. C. Campbell, L. -M. Duan, Z. -X. Gong, A. V. Gorshkov, P. Hess, R. Islam, K. Kim, G. Pagano, P. Richerme, C. Senko, and N. Y. Yao, Rev. Mod. Phys. 93, 025001 (2021).


Discrete Time Crystals,” D. V.  Else, C. Monroe, C. Nayak, and N. Y. Yao, Annual Review of Condensed Matter Physics 11, 467-499 (2020).


Non-thermalization in trapped atomic ion spin chains,” P. W. Hess, P. Becker, H. B. Kaplan, A. Kyprianidis, A. C. Lee, B. Neyenhuis, G. Pagano, P. Richerme, C. Senko, J. Smith, W. L. Tan, J. Zhang, C. Monroe, Phil. Trans. Roy. Soc. A 375, 20170107 (2017).


Co-designing a Scalable Quantum Computer with Trapped Atomic Ions,” K. R. Brown, J. Kim, and C. Monroe, Nature Quantum Information 2, 16034 (2016).


Quantum Simulation of Spin Models with Trapped Ions,” C. Monroe, W. C. Campbell, E. E. Edwards, R. Islam, D. Kafri, S. Korenblit, A. Lee, P. Richerme, C. Senko, and J. Smith, Proceedings of the International School of Physics ‘Enrico Fermi,’ Course 189, pp. 169-187, edited by M. Knoop, I. Marzoli, and G. Morigi (2015).


Quantum Control of Qubits and Atomic Motion Using Ultrafast Laser Pulses,” J. Mizrahi, B. Neyenhuis, K. G. Johnson, W. C. Campbell, C. Senko, D. Hayes, C. Monroe, Applied Physics B 114, 45 (2014).


Quantum Networks with Atoms and Photons,” C Monroe, W Campbell, C Cao, T Choi, S Clark, S Debnath, C Figgatt, D Hayes, D Hucul, V Inlek, R Islam, S Korenblit, K Johnson, A Manning, J Mizrahi, B Neyenhuis, A Lee, P Richerme, C Senko, J Smith and K Wright, ICOLS 2013: J. Phys. Conf. Ser. 467, 012008 (2013).

Scaling the Ion Trap Quantum Processor,” C. Monroe and J. Kim, Science 339, 1164 (2013).


Quantum Logic Between Distant Trapped Ions,” S. Olmschenk, D. Hayes, D. N. Matsukevich, P. Maunz, D. L. Moehring, and C. Monroe, Int. J. Quant. Inf. 8, 337 (2010).

Quantum Networks with Trapped Ions,” L.-M. Duan and C. Monroe, Rev. Mod. Phys. 82, 1209 (2010).

Quantum Computers,” T. D. Ladd, F. Jelezko, R. Laflamme, Y. Nakamura, C. Monroe, and J. L. O’Brien, Nature 464, 45 (2010).

Phonon-mediated Entanglement for Trapped Ion Quantum Computing,” K.-A. Brickman and C. Monroe, Rep. Prog. Phys. 73 036401 (2010).


Protocols and Techniques for a Scalable Atom–Photon Quantum Network,” L. Luo, D. Hayes, T. A. Manning, D. N. Matsukevich, P. Maunz, S. Olmschenk, J. D. Sterk, and C. Monroe, Fortschr. Phys. 57, 1133-1152 (2009).

Demonstration of a Scalable, Multiplexed Ion Trap for Quantum Information Processing,” D. R. Leibrandt, J. Labaziewicz, R.J. Clark, I.L. Chuang, R. J. Epstein, C. Ospelkaus, J.H. Wesenberg, J. H. Bollinger, D. Leibfried, D. Wineland, D. Stick, J. Sterk, C. Monroe, C.-S. Pai, Y. Low, R. Frahm, and R. E. Slusher, Quant. Inf. Comp. 9, 901 (2009); quant-ph/0904.2599.


On the Transport of Atomic Ions in Linear and Multidimensional Ion Trap Arrays,” D. Hucul , M. Yeo, W. K. Hensinger, J. Rabchuk, S. Olmschenk, and C. Monroe, Quant. Inf. Comp. 8, 501-578 (2008)


Robust probabilistic quantum information processing with atoms, photons, and atomic ensembles,” L.-M. Duan and C. Monroe, Advances in Atomic, Molecular, and Optical Physics, vol. 55, E. Arimondo, P. R. Berman and C. C. Lin, eds. (Elsevier, 2008), pp. 419-464.2007

The Trap Technique: Toward a Chip-Based Quantum Computer,”.D. Stick, J. D. Sterk, and C. Monroe, IEEE Spectrum (August, 2007), p. 5378.

Quantum Networking with Photons and Trapped Ions,” D. L. Moehring, M. J. Madsen, K. C. Younge, R. N. Kohn, Jr., P. Maunz, L.-M. Duan, C. Monroe, and B. Blinov, J. Opt. Soc. Am. B 24, 300 (2007).


Semiconductor Traps for Laser-Cooled Atomic Ions and Scalable Quantum Computing,” D. Stick, W. K. Hensinger, S. Olmschenk, and C. Monroe, IEEE Lasers and Electro-Optic Society Newsletter 20 (3), 13 (June, 2006)


Ion Trap Networking: Cold, Fast, and Small,” D. L. Moehring, M. Acton, B. B. Blinov, K.-A. Brickman, L. Deslauriers, P. C. Haljan, W. K. Hensinger, D. Hucul, R. N. Kohn, P. J. Lee, M. J. Madsen, P. Maunz, S. Olmschenk, D. Stick, M. Yeo, C. Monroe, and J. Rabchuk, Laser Spectroscopy XVII, E. A. Hinds, A. Ferguson, and E. Riis, (eds.), World Scientific, Singapore 2005, pp. 421-428.

Phase Control of Trapped Ion Quantum Gates,” P. J. Lee, K.-A. Brickman, L. Deslauriers, P. C. Haljan, L.-M. Duan, and C. Monroe, Journal of Optics B 7, S371 (2005).


Quantum Computing with Trapped Ion Hyperfine Qubits,” B. B. Blinov, D. Leibfried, C. Monroe, and D. J. Wineland, Quantum Inf. Proc. 3, 45 (2004).

Planar Ion Trap Geometry for Microfabrication,” M. J. Madsen, W. K. Hensinger, D. Stick, J. A. Rabchuk, and C. Monroe, Appl. Phys. B 78, 639 (2004).


Quantum dynamics of single trapped ions,” D. Leibfried, R. Blatt, C. Monroe, and D. Wineland, Rev. Mod. Phys. 75, 281 (2003).


Quantum information processing with atoms and photons“, C. Monroe, Nature 416, 238 (2002).


Computing with atoms and molecules” C. Monroe and D. Wineland, Science Spectra, Issue 23, 17 (2000).


Shadows and Mirrors: Reconstructing the Quantum State of Atom Motion,” D. Leibfried, T. Pfau, and C. Monroe, Physics Today 51, 22 (April, 1998).

Experimental Primer on the Trapped Ion Quantum Computer,” D. Wineland, C. Monroe, W. Itano, B. King, D. Leibfried, D. Meekhof, C. Myatt, and C. Wood, Fortschritte der Physik 46, 363 (1998).

Quantum Computing,” G. Brassard, I. Chuang, S. Lloyd, and C. Monroe, Proc. Nat. Acad. Science 95,11032 (1998).

Quantum state manipulation of trapped atomic ions,” D. Wineland, C. Monroe, D. Meekhof, B. King, D. Leibfried, W. Itano, J. Bergquist, D. Berkeland, J. Bollinger, and J. Miller, Proc. R. Soc. A 454, 411 (1998).

Issues in Coherent Quantum Manipulation of Trapped Atomic Ions,” D. Wineland, C. Monroe, W. Itano, D. Leibfried, B. King, and D. Meekhof, NIST Journal of Research 103, 259 (1998).


Atomic Physics in Ion Traps,” C. Monroe and J. Bollinger, Physics World 10, 37 (March 1997).