John Preskill's Publications
1. Cosmological Production of Superheavy Magnetic Monopoles, John P. Preskill, Physical Review Letters 43, 1365-1368 (1979).
2. CP Nonconservation Without Elementary Scalar Fields, Estia Eichten, Kenneth Lane, John Preskill, Physical Review Letters 45, 225-228 (1980).
3. Subgroup Alignment in Hypercolor Theories, John Preskill, Nuclear Physics B177, 21-59 (1981).
4. Decoupling" Constraints on Massless Composite Particles, John Preskill, Steven Weinberg, Physical Review D 24, 1059-1062 (1981).
5. Massless Composites with Massive Constituents, Savas Dimopoulos, John Preskill, Nuclear Physics B199, 206-222 (1982).
6. Composite Quarks and
Leptons, John Preskill, in Particles and Fields -- 1981: Testing the Standard
Model, ed. C. Heusch and W. Kirk,
7. Catalyzed Nucleon Decay in Neutron Stars, Savas Dimopoulos, John Preskill, Frank Wilczek, Physics Letters 119B, 320-322 (1982).
8. Cosmology of the Invisible Axion, John Preskill, Mark B. Wise, Frank Wilczek, Physics Letters 120B, 127-132 (1983).
9. Monopoles
in the Very Early Universe, John Preskill, in the The
Very Early Universe, ed. S. Hawking, G. Gibbons, and S. Siklos,
10. Fractional Charge and Magnetic Monopoles, John Preskill, in Magnetic Monopoles, ed. R. Carrigan and P. Trower, New York (Plenum Press, 1983), p. 111-126.
11. Anomalies and Fermion Masses in D Dimensions, John Preskill, Paul H. Frampton, Hendrik van Dam), Physics Letters 124B, 209-211 (1983).
12. Dyon-Axion Dynamics, Willy Fischler, John Preskill, Physics Letters 125B, 165-170 (1983).
13. Monopoles
in 1983, John Preskill, in Monopole '83, ed. J. Stone,
14. Magnetic Monopoles, John Preskill, Ann. Rev. Nucl. Part. Sci. 34, 461-530 (1984).
15. Magnetic Monopoles in Particle Physics and Cosmology, John Preskill, in Inner Space/Outer Space, ed. E. Kolb, D. Schramm, and M. Turner, Chicago (University of Chicago Press, 1985), p. 373-389.
16. Composite Fermions Without U(1)'s, Howard Georgi, John Preskill, Physics Letters 156B, 369-372 (1985).
17. A Supersymmetric Regulator, Benjamin Grinstein, John Preskill, CALT-68-1234 (1985), unpublished.
18. Topological Interpretation of Reducible Gauge Anomalies, Jiyu Feng, John Preskill, CALT-68-1278 (1985), unpublished.
19. Neutrino Masses and Family Symmetry, Benjamin Grinstein, John Preskill, Mark Wise, Physics Letters 159B, 57-61 (1985).
20. The Significance of Voids, S. Otto, H. David Politzer, John Preskill, Mark B. Wise), Ap. J. 304, 62-74 (1986).
21. Poisson Clusters and Poisson Voids, H. David Politzer, John P. Preskill, Physical Review Letters 56, 99-102 (1986). Erratum
22. Chiral Gauge Theories in the 1/N Expansion, Estia Eichten, Roberto D. Peccei, John Preskill, Dieter Zeppenfeld, Nuclear Physics B268, 161-178 (1986).
23. Chiral Gauge Theories on the Lattice, Estia Eichten, John Preskill, Nuclear Physics B268, 179-208 (1986).
24. Vortices and Monopoles, John Preskill, in Architecture of the Fundamental Interactions at Short Distances ed. P. Ramond and R. Stora, Amsterdam (North-Holland, 1987), p. 235-338.
25. Gauge Theories in the Many-Gluon Limit, John Preskill, Sandip Trivedi, Nuclear Physics B1A (Proc. Suppl.), 83-93 (1987).
26. Wormholes in Spacetime and the Constants of Nature, John Preskill, Nuclear Physics B323, 141-186 (1989).
27. Wormholes in Spacetime and theta QCD, Sandip P. Trivedi, John Preskill, Mark B. Wise, Physics Letters 223B, 26-31 (1989).
28. Magnetic Wormholes and Topological Symmetry, A. K. Gupta, J. Hughes, J. Preskill M. B. Wise, Nuclear Physics B333, 195-220 (1990).
29. Cosmic Strings, J. Preskill, in Encyclopedia of Physics, second edition, ed. R. G. Lerner and G. L. Trigg, New York (VCH, 1991), p. 200-202.
30. Local Discrete Symmetry and Quantum-Mechanical Hair, J. Preskill, L. M. Krauss), Nuclear Physics B B341, 50-100 (1990).
31. Spin Structures and Pin Structures, B. Grinstein, J. Preskill, R. Rohm, CALT-68-1428 (1989), unpublished
32. Gauge Anomalies in an Effective Field Theory, J. Preskill, Annals of Physics 210, 323-379 (1991).
33. Quantum Hair, J. Preskill, Physica Scripta T36 258-264 (1991).
34. Cosmology and Broken Discrete Symmetry, J. Preskill, S.P. Trivedi, F. Wilczek, M. Wise, Nuclear Physics B363, 207-220 (1991).
35. Dynamical Effect of Quantum Hair, S. Coleman, J. Preskill, F. Wilczek, Modern Physics Letters A6, 1631-1642 (1991).
36. Limitations on the Statistical Description of Black Holes, J. Preskill, P. Schwarz, A. Shapere, S. Trivedi, F. Wilczek, Modern Physics Letters A6, 2353-2362 (1991).
37. Growing Hair on Black Holes, S. Coleman, J. Preskill, F. Wilczek, Physical Review Letters 67, 1975-1978 (1991).
38. Internal Frame Dragging and a Global Analog of the Aharonov-Bohm Effect, J. March-Russell, J. Preskill, F. Wilczek, Physical Review Letters 68, 2567-2571 (1992), hep-th/9112054 .
39. On Detecting Discrete Cheshire Charge, Martin Bucher, Kai-Ming Lee, John Preskill, Nuclear Physics B386, 27-42 (1992), hep-th/9112040 .
40. Topological Approach to Alice Electrodynamics, Martin Bucher, Hoi-Kwong Lo, John Preskill, Nuclear Physics B386, 3-26 (1992), hep-th/9112039 .
41. Quantum Field Theory of Nonabelian Strings and Vortices, M. G. Alford, Kai-Ming Lee, J. March-Russell, J. Preskill, Nuclear Physics B384, 251-317 (1992), hep-th/9112038 .
42. Quantum Hair On Black Holes, S. Coleman, J. Preskill, F. Wilczek, Nuclear Physics B378, 175-246 (1992), hep-th/9201059 .
43. Semilocal Defects, J. Preskill, Physical Review D 46, 4218-4231 (1992), hep-ph/9206216 .
44. Quantum Hair and Quantum Gravity, S. Coleman, L. M. Krauss, J. Preskill, F. Wilczek), Gen. Rel. Grav. 24, 9-16 (1992).
45. Decay of Metastable Topological Defects, J. Preskill, A. Vilenkin, Physical Review D 47, 2324-2342 (1993), hep-ph/9209210 .
46. Do Black Holes Destroy Information?, J. Preskill, in Black holes, Membranes, Wormholes and Superstrings, ed. S. Kalara and D. V. Nanopoulos, Singapore (World Scientific, 1993) p. 22-39, hep-th/9209058 .
47. Nonabelian Vortices and Nonabelian Statistics, Hoi-Kwong Lo, John Preskill, Physical Review D 48, 4821-4834 (1993), hep-th/9306006.
48. Complementarity in Wormhole Chromodynamics, Hoi-Kwong Lo, Kai-Ming Lee, John Preskill, Physics Letters B318, 287-292 (1993), hep-th/9308044 .
49. Black
Hole, J. Preskill, in McGraw-Hill Yearbook of Science and Technology,
ed. S. P. Parker,
50. Black Hole Thermodynamics and Information Loss in Two-Dimensions, T.M. Fiola, J. Preskill, A. Strominger, S.P. Trivedi, Physical Review D 50, 3987-4014 (1994), hep-th/9403137 .
51. Black Holes and Time Warps: Einstein's Outrageous Legacy (book review), J. Preskill, Engineering and Science LVII, No. 4, 39-41 (1996).
52. Charge, J. Preskill in
Macmillan Encyclopedia of Physics, ed. J. S. Rigden,
53. The Nature of Space and Time (book review), J. Preskill, Physics Today 49, No. 7, 60-61 (1996).
54. Cosmic Strings and Other Topological Defects (book review), J. Preskill, Science 272, 966-967 (1996).
55. Foreword,
J. Preskill, K. S. Thorne, in The Feynman Lectures on Gravitation, ed. B.
Hatfield,
56. Efficient
Networks for Quantum Factoring, D. Beckman, A.N. Chari, S. Devabhaktuni, J. Preskill, Physical Review A 54,
1034-1063 (1996), quant-ph/9602016.
57.
Reliable Quantum Computers, J.
Preskill, Proc. Roy. Soc. Lond. A454, 385-410 (1998),
quant-ph/9705031 .
58. Quantum Computing: Pro and Con, J. Preskill, Proc. Roy. Soc. Lond. A454, 469-486 (1998), quant-ph/9705032.
59. Fault Tolerant Quantum Computation, in Introduction to Quantum Computation, J. Preskill, ed. H.K. Lo, S. Popescu and T.P. Spiller (World Scientific, 1998), quant-ph/9712048 .
60. Robust Solutions to Hard Problems, J. Preskill Nature 391, 631-632 (1998).
61. Making Weirdness Work: Quantum Information and Computation, J. Preskill, in Proceedings of the 1998 IEEE Aerospace Conference, ed. R. A. Profet (IEEE, 1998).
62. Topological Quantum Computation, R. W. Ogburn, J. Preskill, Lecture Notes in Computer Science 1509: 341-356 (1999).
63. Unstable Door to the Future of Computing (book review) Nature 398, 118-119 (1999).
64. Battling Decoherence: The Fault-tolerant Quantum Computer, J. Preskill, Physics Today 52, No. 6, 24-30 (1999)
65. Plug-in Quantum Software, J. Preskill Nature 402, 357-358 (1999).
66. Quantum Information and Precision Measurement, A. M. Childs, J. Renes, J. Preskill, Journal of Modern Optics 47,155-176 (2000), quant-ph/9904021 .
67. Quantum Information and Physics: Some Future Directions, J. Preskill, Journal of Modern Optics 47, 127-137 (2000), quant-ph/9904022 .
68. Simple Proof of Security of the BB84 Quantum Key Distribution Protocol, P. W. Shor, J. Preskill, Physical Review Letters 85, 441-444 (2000), quant-ph/0003004 .
69. Encoding a Qubit in an Oscillator, D. Gottesman, A. Kitaev, J. Preskill, Physical Review A 64, 012310 (2001), quant-ph/0008040 .
70. Secure Quantum Key Distribution Using Squeezed States, D. Gottesman, J. Preskill, Physical Review A 63, 022309 (2001), quant-ph/0008046 .
71. Quantum Clock Synchronization and Quantum Error Correction, J. Preskill quant-ph/0010098.
72. Causal and Localizable Quantum Operations, D. Beckman, D. Gottesman, M. A. Nielsen, J. Preskill, Physical Review A 64, 052309 (2001), quant-ph/0102043 .
73. Achievable Rates for the Gaussian Quantum Channel, J. Harrington, J. Preskill Physical Review A 64, 062301 (2001), quant-ph/0105058 .
74. Robustness of Adiabatic Quantum Computation, A. M. Childs and E. Farhi, J. Preskill, Physical Review A 65, 012322 (2002), quant-ph/0108048.
75. Measurability of Wilson Loop Operators, D. Beckman, D. Gottesman, A. Kitaev, J. Preskill, Physical Review D 65, 065022 (2002), hep-th/0110205 .
76. Topological Quantum Memory, E. Dennis, A. Kitaev, A. Landahl, J. Preskill, Journal of Mathematical Physics 43, 4452-4505 (2002), quant-ph/0110143 .
77. Confinement-Higgs transition in a disordered gauge theory and the accuracy threshold for quantum memory, C. Wang, J. Harrington, J. Preskill, Annals of Physics 303, 31-58 (2003), quant-ph/0207088 .
78. Secure quantum key distribution with an uncharacterized source, M. Koashi, J. Preskill, Physical Review Letters 90, 057902 (2003), quant-ph/0208155 .
79. Security
of quantum key distribution with imperfect devices, D. Gottesman, H.-K.
Lo, N. Lütkenhaus, J. Preskill, Quantum Information
and Computation 4, 325-360 (2004), quant-ph/0212066.
80. Superselection rules and quantum protocols,
A. Kitaev, D. Mayers, J.
Preskill, Physical Review A 69, 052326 (2004), quant-ph/0310088.
81. Comment on
“The black hole final state”, D. Gottesman, J. Preskill, J. High Energy
Physics 0403, 026 (2004), hep-th/0311269.
82. Phase randomization improves the security of quantum key distribution (with H.-K. Lo), quant-ph/0504209.
83. Quantum
accuracy threshold for concatenated distance-3 codes, P. Aliferis. D. Gottesman, J. Preskill, Quantum Information
and Computation 6, 097-165 (2006), quant-ph/0504218.
84. Topological
entanglement entropy, A. Kitaev, J. Preskill,
Physical Review Letters 96, 110404 (2006), hep-th/0510092.
85. Fault-tolerant quantum computation with long-range correlated noise, D. Aharonov, A. Kitaev, J. Preskill, Physical Review Letters 96, 050504 (2006), quant-ph/0510231.
121. Simulating
quantum field theory with a quantum computer, John Preskill, The 36th
Annual International Symposium on Lattice Field Theory -- LATTICE2018, arXiv:1811.10085 (2018).
122. Continuous
symmetries and approximate quantum error correction, Philippe Faist, Sepehr Nezami,
Victor V. Albert, Grant Salton, Fernando Pastawski,
and Patrick Hayden, John Preskill, Physical Review X 10, 041018 (2020), arXiv:1902.07714.
123. Foreword,
John Preskill, in Quantum Information Meets Quantum Matter, by Bei Zeng, Xie Chen, Duan-Lu Zhou, and Xiao-Gang Wen (Springer, 2019), p. v–
vii.
124. Why I
called it “quantum supremacy”, John Preskill, Quanta Magazine, 2
October 2019.
125. Distributed
quantum sensing enhanced by continuous-variable error correction, Quntao
Zhuang, John Preskill, Liang Jiang, New J. Physics 22, 022001 (2020), arXiv:1910.14156.
126. Robust
encoding of a qubit in a molecule, Victor Albert, Jacob Covey, John
Preskill, Physical Review X 10, 03150 (2020), arXiv:1911.00099.
127. Models of
quantum complexity growth, Fernando Brandao, Wissam Chemissany, Nicholas
Hunter-Jones, Richard Kueng, John Preskill, PRX
Quantum 2, 030316 (2021), arXiv:1912.04297.
128. Coherence
in logical quantum channels, Joseph K. Iverson, John Preskill, New. J.
Physics 22, 073066 (2020), arXiv:1912:04319.
129. Predicting
many properties of a quantum system from very few measurements, Hsin-Yuan Huang, Richard Kueng,
John Preskill, Nature Physics 16, 1050-1057 (2020), arXiv:2002.08953.
130. The ghost in
the radiation: Robust encodings of the black hole interior, Isaac Kim,
Eugene Tang, John Preskill, J. High Energy Physics 2020, 031 (2020), arXiv:2003.05451.
131. Mixed
state entanglement from local randomized measurements, Andreas Elben,
Richard Kueng, Hsin-Yuan
Huang, Rick van Bijnen, Christian Kokail,
Marcello Dalmonte, Pasquale Calabrese, Barbara Kraus,
John Preskill, Peter Zoller, and Benoît
Vermersch, Physical Review Letters 125, 200501
(2020), arXiv:2007.06305.
132. Spotting
black holes in the lab, John Preskill, Quanta Magazine, 15 July 2020.
133. Building a
fault-tolerant quantum computer using concatenated cat codes,
Christopher Chamberland, Kyungjoo
Noh, Patricio Arrangoiz-Arriola, Earl T. Campbell,
Connor T. Hann, Joseph Iverson, Harald Putterman,
Thomas C. Bohdanowicz, Steven T. Flammia,
Andrew Keller, Gil Refael, John Preskill, Liang
Jiang, Amir H. Safavi-Naeini, Oskar Painter, Fernando
G. S. L. Brandão, PRX Quantum 3, 010329 (2022), arXiv:2012:04108.
134. Collisions
of false-vacuum bubble walls in a quantum spin chain, Ashley Milsted, Junyu Liu, John Preskill, Guifre
Vidal, PRX Quantum 3, 020316 (2022), arXiv:2012.07243.
135. Information-theoretic
bounds on quantum advantage in machine learning, Hsin-Yuan
Huang, Richard Kueng, Preskill, Physical Review
Letters 126, 190505, arXiv:2101.02464.
136. Efficient
estimation of Pauli observables by derandomization,
Hsin-Yuan Huang, Richard Kueng,
John Preskill, Physical Review Letters 127, 030503 (2021), arXiv:2103.07510.
137. Quantum
computing 40 years later, John Preskill, in Feynman Lectures on Physics:
Anniversary Edition, ed. Tony Hey (CRC Press, 2023), p. 193-243, arXiv:2106.10522.
138. Provably
efficient machine learning for quantum many-body problems, Hsin-Yuan Huang, Richard Kueng,
Giacomo Torlai, Victor V. Albert, John Preskill,
Science 377, 1397 (2022), arXiv:2106.12627.
139. Steven
Weinberg (1933-2021): Titan of theoretical physics, John Preskill,
Science 373: 6559, 1092 (2021).
140. Provably
accurate simulations of gauge theories and bosonic systems, Yu Tong,
Victor V. Albert, Jarrod R. McClean, John Preskill,
Yuan Su, Quantum 6, 816 (2022), arXiv:2110.06942.
141. Spin
chains, defects, and quantum wires for the quantum-double edge, Victor V.
Albert, David Aasen, Wenqing
Xu, Wenjie Ji, Jason Alicea,
John Preskill, arXiv:2111.12096.
142. Quantum
advantage in learning from experiments, Hsin-Yuan
Huang, Michael Broughton, Jordan Cotler, Sitan Chen,
Jerry Li, Masoud Mohseni, Hartmut Neven, Ryan Babbush,
Richard Kueng, John Preskill, Jarrod R. McClean, Science 376, 1182-1186 (2022), arXiv:2112.00778.
143. The
randomized measurement toolbox, Andreas Elben, Steven T. Flammia, Hsin-Yuan Huang, Richard
Kueng, John Preskill, Benoît
Vermersch, Peter Zoller,
Nature Reviews Physics 5, 9-24 (2023), arXiv:2203.11374.
144. Foundations
for learning from noisy quantum experiments, Hsin-Yuan
Huang, Steven Flammia, John Preskill, arXiv:2204.13691.
145. Emergent
quantum mechanics at the boundary of a local classical lattice model,
Kevin Slagle, John Preskill, Physical Review A 108, 012217 (2023), arXiv:2207.09465.
146. Time-energy
uncertainty relation for noisy quantum metrology, Philippe Faist, Mischa P. Woods, Victor V. Albert, Joseph M. Renes, Jens Eisert, John
Preskill, PRX Quantum 4, 040336 (2023), arXiv:2207.13707.
147. Evaluating
the evidence for exponential quantum advantage in ground-state quantum
chemistry, Seunghoon Lee, Joonho
Lee, Huanchen Zhai, Yu
Tong, Alexander M. Dalzell, Ashutosh Kumar, Phillip
Helms, Johnnie Gray, Zhi-Hao Cui, Wenyuan
Liu, Michael Kastoryano, Ryan Babbush,
John Preskill, David R. Reichman, Earl T. Campbell,
Edward F. Valeev, Lin Lin,
Garnet Kin-Lic Chan, Nature Communications 14, 1952
(2023), arXiv:2208.02199.
148. The
physics of quantum information, John Preskill, in The Physics of Quantum
Information: Proceedings of the 28th Solvay Conference on Physics, ed. D.
Gross, A. Severin, and P. Zoller
(World Scientific, 2023), p. 6-28, arXiv:2208.08064.
149. Learning to
predict arbitrary quantum processes, Hsin-Yuan
Huang, Sitan Chen, John Preskill, PRX Quantum 4,
040337 (2023), arXiv:2210.14894.
150. Complementarity
and the unitarity of the black hole S-matrix,
Isaac Kim, John Preskill, J. High Energy Physics 2023, 233 (2023), arXiv:2212.00194.
151. Improved machine
learning algorithm for predicting ground state properties, Laura Lewis,
Hsin-Yuan Huang, Viet T. Tran, Sebastian Lehner, Richard Kueng, John
Preskill, Nature Communications 15, 895 (2024), arXiv:2301.13169.
152. Hierarchical
memories: Simulating quantum LPDC codes with local gates, Quantum 9,
1728 (2025) Christopher A. Pattison, Anirudh Krishna,
John Preskill, arXiv:2303.04798.
153. Enhanced
estimation of quantum properties with common randomized measurements, Benoît Vermersch, Aniket Rath, Bharathan
Sundar, Cyril Branciard,
John Preskill, Andreas Elben, PRX Quantum 5, 010352 (2024), arXiv:2304.12292.
154. Local minima
in quantum systems, Chi-Fang Chen, Hsin-Yuan
Huang, John Preskill, Leo Zhou, Nature Physics (2025) and Proceedings of
the 56th Annual ACM Symposium on Theory of Computing, 1323-1330, arXiv:2309.16596.
155. Stochastic
error cancellation in analog quantum simulation, Yiyi Cai, Yu Tong, John Preskill, Proceedings of the 19th
Conference on the Theory of Quantum Computation, Communications and
Cryptography (TQC 2024), arXiv:2311.14818.
156. Entanglement-enabled
advantage for learning a bosonic random displacement channel, Changhun Oh, Senrui Chen, Yat Wong, Sisi Zhou, Hsin-Yuan Huang, Jens A. H. Nielsen, Zheng-Hao Liu, Jonas S. Neergaard-Nielsen,
Ulrik L. Andersen, Liang Jiang, John Preskill,
Physical Review Letters 133, 230604 (2024), arXiv:2402.18809.
157. Quantum chaos
in the sparse SYK model, Patrick Orman, Hrant
Gharibyan, John Preskill, J. High Energy Physics
2025, 173 (2025), arXiv:2403.13884.
158. Certifying
almost all quantum states with few single-qubit measurements, Hsin-Yuan Huang,
John Preskill, Mehdi Soleimanifar, 2024 IEE 65th
Annual Symposium on Foundations of Computer Science (FOCS), pp. 1202-1206, arXiv:2404.07281.
159.
Stochastic waveform estimation at the fundamental quantum limit, James W.
Gardner, Tuvia Gefen, Simon
A. Haine, Joseph J. Hope, John Preskill, Yanbei Chen, Lee McCuller, arXiv:2404.113867.
160. Efficient
soft-output decoders for the surface code, Nadine Meister, Christopher A. Pattison,
John Preskill, arXiv:2405.07433.
161. Universal
scaling laws for correlated decay of many-body quantum systems, Wai-Keong Mok, Avishi Poddar, Eric Sierra, Cosimo C. Rusconi, John Preskill,
Ana Asenjo-Garcia, arXiv:2406.00722.
162.
Resilience of the surface code to error bursts, Shi Jie
Samuel Tan, Christopher A. Pattison, Matt McEwen, John Preskill, arXiv:2406.18897.
163. Hardware-efficient
quantum error correction using concatenated bosonic qubits, Harald Putterman et al., Nature 638, 927-934 (2025), arXiv:2409.13025.
164. Optimal
conversion from classical to quantum randomness via quantum chaos, Wai-Keong Mok, Tobias Haug, Adam L. Shaw, Manuel Endres,
John Preskill, Physical Review Letters 134, 180403 (2025), arXiv:2410.05181.
165.
Predicting adaptively chosen observables in quantum systems, Jerry Huang, Laura
Lewis, Hsin-Yuan Huang, John Preskill, arXiv:2410.15501.
166. Learning
k-body Hamiltonians via compressed sensing, Muzhou
Ma, Steven T. Flammia, John Preskill, Yu Tong, arXiv:2410.18928.
167. When can
classical neural networks represent quantum states?, Tai-Hsuan
Yang, Mehdi Soleimanifar, Thiago Bergamaschi, John
Preskill, arXiv:2410.23152.
168. Real-time
scattering in Ising field theory using matrix product
states, Raghav G. Jha,
Ashley Milsted, Dominik Neuenfeld,
John Preskill, Pedro Vieira, arXiv:2411.13645.
169. Quantum
learning advantage on a scalable photonic platform, Zheng-Hao
Liu, Romain Brunel, Emil E. B. Østergaard,
Oscar Cordero, Senrui Chen, Yat
Wong, Jens A. H. Nielsen, Axel B. Bregnsbo, Sisi Zhou, Hsin-Yuan Huang, Changhun Oh, Liang Jiang, John Preskill, Jonas S. Neergaard-Nielsen, Ulrik L.
Andersen, arXiv:2502.07770.
170.
Observable and computable entanglement in time, Alexey Milekhin,
Zofia Adamska, John
Preskill, arXiv:2502.12240.
171. Beyond
NISQ: The Megaquop Machine, John Preskill,
ACM Transactions on Quantum Computing 6: No. 3, Article 18 (2025), arXiv:2502.17368.
172. Rapid
quantum ground state preparation via dissipative dynamics, Yongtao
Zhan, Zhiyan Ding, Jakob Huhn, Johnnie Gray, John Preskill, Garnet Kin-Lic Chan, Lin Lin, arXiv:2503.15827.
173. Learning to
erase quantum states: thermodynamic implications of quantum learning theory, Haimeng Zhao, Yuzhen Zhang, John Preskill, arXiv:2504.07341.
174. Digital
quantum simulations of scattering in quantum field theories using W states,
Roland C. Farrell, Nikita A. Zemlevskiy, Marc Illa, John Preskill, arXiv:2505.03111.
Updated May 2025