2025 2024 2023 2022 2021 2020
2019 2018 2017 2016 2015 2014 2013 2012 2011 2010
2009 2008 2007 2006 2005 2004 2003 2002 2001 2000
2025
B. Marinelli, A. H. Rubin, V. A. Norman, S. Yang, R. Naik, B. M. Niedzielski, D. K. Kim, R. Das, M. Schwartz, D. I. Santiago, C. Spitzer, I. Siddiqi, M. Radulaski, "Photon Blockade in a Tavis-Cummings System," Physical Review Applied 24, 044103 (2025), arXiv:2501.18751.
A. H. Rubin. B. Marinelli, V. A. Norman, Z. Rizvi, A. D. Burch, R. K. Naik, J. M. Kreikebaum, M. N. H. Chow, D. S. Lobser, M. C. Revelle, C. G. Yale, M. Ivory, D. I. Santiago, C. Spitzer, M. Krstic-Marinkovic, S. M. Clark, I. Siddiqi, M. Radulaski, "Digital Quantum Simulation of Cavity Quantum Electrodynamics: Insights from Superconducting and Trapped Ion Quantum Testbeds," Quantum Science and Technology 10, 4 (2025), arXiv:2404.03861.
A. N. Sims, D. Patel, A. Philip, A. H. Rubin, R. Bandyopadhyay, M. Radulaski, M. M. Wilde, "Digital Quantum Simulations of the Non-Resonant Open Tavis-Cummings Model," accepted for publication in Physical Review Research (2025), arXiv:2501.18522.
P. Saha, A. H. Rubin, S. Majety, S. Dhuey, M. Radulaski, "Triangular cross-section grating couplers for integrated quantum nanophotonic hardware in silicon carbide," special collection 'Emerging Leaders in Materials Science', APL Materials 13, 071102 (2025), arXiv:2410.12150.
V. A. Norman, S. Majety, A. H. Rubin, P. Saha, N. R. Gonzalez, J. Simo, B. Palomarez, L. Li, P. B. Curro, S. Dhuey, S. Virashawmy, M. Radulaski, "Sub-2 Kelvin characterization of nitrogen-vacancy centers in silicon carbide nanopillars," special issue 'Rising Stars in Photonics,' ACS Photonics 12, 5, 2604–2611 (2025), arXiv:2401.10509.
S. Majety, V. A. Norman, P. Saha, A. H. Rubin, S. Dhuey, M. Radulaski, "Wafer-Scale Integration of Freestanding Photonic Devices with Color Centers in Silicon Carbide," npj Nanophotonics 2, 3 (2025), arXiv:2405.07498.
F. Anza and J. P. Crutchfield, “Maximum Geometric Quantum Entropy”, Entropy 26, 225 (2025).
2024
A. Yue, R. Mondaini, Q. Guo, and R. T. Scalettar, "Quantum State Transfer in Interacting, Multiple-Excitation Systems",
Phys. Rev. B 110, 195410 (2024).
L. Xiang, J. Chen, Z. Zhu, Z. Song, Z. Bao, X. Zhu, F. Jin, K. Wang, S. Xu, Y. Zou, H. Li, Z. Wang, C. Song, A. Yue, J. Partridge, Q. Guo, R. Mondaini, H. Wang, and R. T. Scalettar, "Enhanced quantum state transfer: Circumventing quantum chaotic
behavior", Nature Communications 15, 4918 (2024).
S. Majety, P. Saha, Z. Kekula, S. Dhuey, M. Radulaski, "Triangular Cross-Section Beam Splitters in Silicon Carbide for Quantum Information Processing," MRS Communications, 1-7 (2024), arXiv:2311.07845.
A. Touil, F. Anza, S. Deffner, and J. P. Crutchfield, “Branching States as The Emergent Structure of a Quantum Universe”, Quantum 8, 1494 (2024).
J. Y. Patton, V. A. Norman, E. C. Mann, B. Puri, R. T. Scalettar, M. Radulaski, "Polariton Creation in Coupled Cavity Arrays with Spectrally Disordered Emitters," Materials for Quantum Technology 4, 024501 (2024), arXiv:2112.15469.
2023
M. K. Marinkovic, M. Radulaski, "Singly-excited resonant open quantum system Tavis-Cummings model with quantum circuit mapping," Scientific Reports 13, 19435 (2023), arXiv:2208.12029.
R. Bandyopadhyay, A. H. Rubin, M. Radulaski, M. Wilde, "Efficient quantum algorithms for testing symmetries of open quantum systems," Open Systems & Information Dynamics 30, 03, 2350017 (2023), arXiv:2309.02515.
S. Majety, M. Radulaski, "Writing above the bandgap," Nature Materials 22, 675-676 (2023).
P. Saha, S. Majety, M. Radulaski, "Utilizing photonic band gap in triangular silicon carbide structures for efficient quantum nanophotonic hardware," Scientific Reports 13, 4112 (2023), arXiv:2208.02996.
S. Majety, S. Strohauer, P. Saha, F. Wietschorke, J. J. Finley, K. Müller, M. Radulaski, "Triangular Quantum Photonic Devices with Integrated Detectors in Silicon Carbide," Materials for Quantum Technology 3, 1 (2023), arXiv:2208.05569.
M. Radulaski, V. A. Norman, "Spin-Interaction Studies Take on a New Dimension," Physics 16, 1 (2023).
2022
F. Anza and J. P. Crutchfield, “Geometric Quantum Thermodynamics”, Physical Review E 106, 054103 (2022).
V. A. Norman, M. Radulaski, "Quantum underpinnings of an all-photonic switch," Nature Physics 18, 1139–1140 (2022).
S. Castelletto, A. Peruzzo, C. Bonato, B. Johnson, M. Radulaski, H. Ou, F. Kaiser, J. Wrachtrup, "Silicon Carbide Photonics Bridging Quantum Technology," ACS Photonics 9, 5, 1434-1457 (2022).
E. Baum, A. Broman, T. Clarke, N. C. Costa, J. Mucciaccio, A. Yue, Y. Zhang, V. Norman, J. Patton, M. Radulaski, R. T. Scalettar, "Effect of Emitters on Quantum State Transfer in Coupled Cavity Arrays," Physical Review B 105, 195429 (2022), arXiv:2112.05740.
F. Anza and J. P. Crutchfield, “Quantum Information Dimension and Geometric Entropy”, Physical Review X Quantum 3, 020355 (2022).
S. Majety, P. Saha, V. A. Norman, M. Radulaski, "Quantum Information Processing With Integrated Silicon Carbide Photonics," Special Topic Collection on Defects in Semiconductors, Journal of Applied Physics 131, 130901 (2022), arXiv:2111.00136.
C. Babin, R. Stoehr, N. Morioka, T. Linkewitz, T. Steidl, R. Woernle, D. Liu, E. Hesselmeier, V. Vorobyov, A. Denisenko, M. Hentschel, C. Gobert, P. Berwian, G. Astakhov, W. Knolle, S. Majety, P. Saha, M. Radulaski, N. T. Son, J. Ul-Hassan, F. Kaiser, J. Wrachtrup, "Fabrication and nanophotonic waveguide integration of silicon carbide colour centres with preserved spin-optical coherence," Nature Materials 21, 67–73 (2022), arXiv.2109.04737.
G. Moody, V. J. Sorger, P. W. Juodawlkis, W. Loh, C. Sorace-Agaskar, M. Davanco, L. Chang, J. E. Bowers, N. Quack, C. Galland, I. Aharonovich, M. A. Wolff, C. Schuck, N. Sinclair, M. Lončar, T. Komljenovic, D. Weld, S. Mookherjea, S. Buckley, M. Radulaski, S. Reitzenstein, B. Pingault, B. Machielse, D. Mukhopadhyay, A. Akimov, A. Zheltikov, G. S. Agarwal, K. Srinivasan, J. Lu, H. X. Tang, W. Jiang, T. P. McKenna, A. H. Safavi-Naeini, S. Steinhauer, A. W. Elshaari, V. Zwiller, P. S. Davids, N. Martinez, M. Gehl, J. Chiaverini, K. K. Mehta, J. Romero, N. B. Lingaraju, A. M. Weiner, D. Peace, R. Cernansky, M. Lobino, E. Diamanti, L. T. Vidarte, R. M. Camacho, "Roadmap on Integrated Quantum Photonics," Journal of Physics:Photonics 4, 012501 (2022), arXiv.2102.03323.
2021
K. Wan, S. Choi, I. H. Kim, N. Shutty, P. Hayden, "Fault-tolerant qubit from a constant number of components", PRX Quantum 2, 040345 (2021), arXiv:2011.08213.
E. Baum, A. Broman, T. Clarke, N. C. Costa, J. Mucciaccio, A. Yue, Y. Zhang, V. Norman, J. Patton, M. Radulaski, R. T. Scalettar, "Effect of Emitters on Quantum State Transfer in Coupled Cavity Arrays," (2021), arXiv:2112.05740.
F. Anza and J. P. Crutchfield, “Beyond Density Matrices: Geometric Quantum States”, Physical Review Research 103, 6, 062218 (2021).
Wang, Z.; McPherson, C.; Kadado, R.; Brandt, N.; Edwards, S.; Casey, W. H.; Curro, N. J. ac Sensing Using Nitrogen-Vacancy Centers in a Diamond Anvil Cell up to 6 GPa, Phys. Rev. Applied, 16 (5), pp. 054014, 2021.
S. Majety, V. A. Norman, L. Li, M. Bell, P. Saha, M. Radulaski, "Quantum photonics in triangular-cross-section nanodevices in silicon carbide", Journal of Physics: Photonics 3, 034008 (2021), arXiv.2012.02350.
Sven Bachmann, Alex Bols, Wojciech De Roeck, and Martin Fraas, “Rational Indices for Quantum Ground State Sectors”, Journal of Mathematical Physics 62 (1): 011901 (2021).
Sven Bachmann, Wojciech De Roeck, Brecht Donvil, and Martin Fraas, “Stability Against Large Perturbations of Invertible, Frustration-Free Ground States”, arXiv Preprint arXiv:2110.11194 (2021).
2020
V. A. Norman, S. Majety, Z. Wang, W. H. Casey, N. Curro, M. Radulaski, “Novel Color Center Platforms Enabling Fundamental Scientific Discovery,” InfoMat, 1- 24 (2020), arXiv.2003.11135.
D. M. Lukin, C. Dory, M. A. Guidry, K. Y. Yang, S. D. Mishra, R. Trivedi, M. Radulaski, S. Sun, D. Vercruysse, G. H. Ahn, J. Vučković, “4H-Silicon-Carbide-on-Insulator for Integrated Quantum and Nonlinear Photonics,” Nature Photonics, 14, 330-334 (2020).
Wang, Zhipan; McPherson, Christopher; Kadado, Rashad; Casey, William H.; Curro, Nicholas.Chapter Eight - Optically detected NMR in a diamond-anvil cell for geochemistry, Hubbard, Colin D.; Eldik, Rudi (Ed.): Advances in Inorganic Chemistry, 78 , pp. 269–287, Academic Press, 2021, ISSN: 0898-8838.
Casey, William H.; Wang, Zhipan; Brandt, Nicholas; Curro, Nicholas The promise of optical NMR spectroscopy for experimental aqueous geochemistry,Am. J. Sci., 320 , pp. 533–545, 2020.
S. P. Loomis and J. P. Crutchfield, “Thermodynamically-Efficient Local Computation and the Inefficiency of Quantum Memory Compression”, Physical Review Research 2, 2, 023039 (2020).
S. P. Loomis and J. P. Crutchfield, “Thermal Efficiency of Quantum Memory Compression”, Physical Review Letters 125, 020601 (2020).
S. P. Loomis, J. R. Mahoney, C. Aghamohammadi, and J. P. Crutchfield, “Optimizing Quantum Models of Classical Channels: The reverse Holevo problem”, Journal of Statistical Physics 181, 1966-1985 (2020).
A. E. Venegas-Li, A. M. Jurgens, and J. P. Crutchfield, “Measurement-Induced Randomness and Structure in Controlled Qubit Processes” Physical Review E, 102, 4, 040102(R) (2020).
Sven Bachmann, Alex Bols, Wojciech De Roeck, and Martin Fraas, “Many-Body Fredholm Index for Ground-State Spaces and Abelian Anyons”, Physical Review B 101 (8): 085138 (2020)
2019
C. Dory, D. Vercruysse, K. Y. Yang, N. V. Sapra, A. E. Rugar, S. Sun, D. M. Lukin, A. Y. Piggott, J. L. Zhang, M. Radulaski, K. G. Lagoudakis, L. Su, J. Vučković, "Inverse-Designed Diamond Quantum Photonics", Nature Communications 10, 3309 (2019), arXiv.1812.02287.
S. P. Loomis and J. P. Crutchfield, “Strong and Weak Optimizations in Classical and Quantum Models of Stochastic Processes”, Journal of Statistical Physics 176, 6, 1317-1342 (2019).
M. Radulaski, J. L. Zhang, Y-K. Tzeng, K. G. Lagoudakis, H. Ishiwata, C. Dory, K. A. Fischer, Y. A. Kelaita, S. Sun, P. C. Maurer, K. Alassaad, G. Ferro, Z-X. Shen, N. A. Melosh, S. Chu, J. Vučković, “Nanodiamond integration with photonic devices,” Laser and Photonics Reviews 1800316 (2019), arXiv.1610.03183.
R. Trivedi, M. Radulaski, K. A. Fischer, S. Fan, J. Vučković, "Photon blockade in weakly-driven cavity QED systems with many emitters," Physical Review Letters 122, 243602 (2019), arXiv.1901.03942.
Miguel Ballesteros, Nick Crawford, Martin Fraas, Jürg Fröhlich, and Baptiste Schubnel, “Perturbation Theory for Weak Measurements in Quantum Mechanics, Systems with Finite-Dimensional State Space”, In Annales Henri Poincaré, 20:299–335. 1. Springer International Publishing (2019)
2018
J. Thompson, A. J. P. Garner, J. R. Mahoney, J. P. Crutchfield, V. Vedral, and M. Gu, “Causal Asymmetry in a Quantum World”, Physical Review X 8 (2018) 031013, http://dx.doi.org/10.1103/PhysRevX.8.031013
C. Aghamohammadi, S. P. Loomis, J. R. Mahoney, and J. P. Crutchfield, “Extreme Quantum Memory Advantage for Rare-Event Sampling”, Physical Review X 8 (2018) 011025, http://doi.org/10.1103/PhysRevX.8.011025
Sven Bachmann, Alex Bols, Wojciech De Roeck, and Martin Fraas, “Quantization of Conductance in Gapped Interacting Systems”, In Annales Henri Poincaré, 19:695–708. 3 (2018), Springer International Publishing.
Miguel Ballesteros, Nicholas Crawford, Martin Fraas, Jürg Fröhlich, and Baptiste Schubnel, “Non-Demolition Measurements of Observables with General Spectra”, Mathematical Problems in Quantum Physics,” QMATH 13: 241–56 (2018)
2017
Aaronson, S., Bouland, A., Kuperberg, G. and Mehraban, S., 2017, June. The computational complexity of ball permutations. In Proceedings of the 49th Annual ACM SIGACT Symposium on Theory of Computing (pp. 317-327), arXiv:1610.06646.
Steele, L. G.; Lawson, M.; Onyszczak, M.; Bush, B. T.; Mei, Z.; Dioguardi, A. P.; King, J.; Parker, A.; Pines, A.; Weir, S. T.; Evans, W.; Visbeck, K.; Vohra, Y. K.; Curro, N. J. Optically detected magnetic resonance of nitrogen vacancies in a diamond anvil cell using designer diamond anvils. Appl. Phys. Lett., 111 (22), pp. 221903, 2017.
C. Aghamohammadi, J. R. Mahoney, and J. P. Crutchfield, “Extreme Quantum Advantage when Simulating Strongly Coupled Classical Systems”, Scientific Reports 7 (2017) 6735, http://doi.org/10.1038/s41598-017-04928-7
C. Aghamohammadi, J. R. Mahoney, and J. P. Crutchfield, “The Ambiguity of Simplicity”, Physics Letters A 381:14 (2017) 1223-1227, http://dx.doi.org/10.1016/j.physleta.2016.12.036
Sven Bachmann, Wojciech De Roeck, and Martin Fraas, “Adiabatic Theorem for Quantum Spin Systems”, Physical Review Letters 119 (6): 060201 (2017)
2016
P. M. Riechers, J. R. Mahoney, C. Aghamohammadi, and J. P. Crutchfield, “Minimized State-Complexity of Quantum-Encoded Cryptic Processes”, Physical Review A 93, 5, 052317 (2016), arxiv.org:1510.08186.
J. R. Mahoney, C. Aghamohammadi, and J. P. Crutchfield, “Occam's Quantum Strop: Synchronizing and Compressing Classical Cryptic Processes via a Quantum Channel”, Scientific Reports 6, 20495 (2016), arxiv.org:1507.01537.
Victor V Albert, Barry Bradlyn, Martin Fraas, and Liang Jiang, “Geometry and Response of Lindbladians”, Physical Review X 6 (4): 041031 (2016)
2015
Kalai, G. and Kuperberg, G., 2015. Contagious error sources would need time travel to prevent quantum computation. Physical Review A, 92(2), p.022345, arXiv:1412.1907.
Kuperberg, G. How hard is it to approximate the Jones polynomial?. Theory Comput. 11 (2015), 183-219, arXiv:0908.0512.
Christian Arenz, Robin Hillier, Martin Fraas, and Daniel Burgarth, “Distinguishing Decoherence from Alternative Quantum Theories by Dynamical Decoupling”, Physical Review A 92 (2): 022102 (2015).
2014
2013
Kuperberg, G. Another subexponential-time quantum algorithm for the dihedral hidden subgroup problem. 8th Conference on the Theory of Quantum Computation, Communication and Cryptography 22 (2013), 20-34, arXiv:1112.3333.
2012
Arkhipov, A. and Kuperberg, G., 2012. The bosonic birthday paradox. Geometry & Topology Monographs, 18(1), pp.10-2140, arXiv:1106.0849.
JE Avron, M Fraas, GM Graf, and P Grech, “Adiabatic Theorems for Generators of Contracting Evolutions”, Communications in Mathematical Physics 314 (1): 163–91 (2012)
2011
JE Avron, M Fraas, GM Graf, and O Kenneth, “Quantum Response of Dephasing Open Systems”, New Journal of Physics 13: 053042 (2011).
2010
JE Avron, M Fraas, GM Graf, and P Grech, “Optimal Time Schedule for Adiabatic Evolution.”, Physical Review A 82 (4): 040304 (2010).
Kuperberg, G. and Weaver, N., 2010. A von Neumann algebra approach to quantum metrics. arXiv:1005.0353.
Koenig, R., Kuperberg, G. and Reichardt, B.W., 2010. Quantum computation with Turaev–Viro codes. Annals of Physics, 325(12), pp.2707-2749, arXiv:1002.2816.
Jain, R., Kerenidis, I., Kuperberg, G., Santha, M., Sattath, O. and Zhang, S., On the power of a unique quantum witness (with Rahul Jain, Iordanis Kerenidis, Miklos Santha, Or Sattath, and Shengyu Zhang). Innov. Comput. Sci. (2010), 470-481, arXiv:0906.4425.
2009
2008
K. Wiesner and J. P. Crutchfield, "Computation in Finitary Stochastic and Quantum Processes", Physica D 237:9 (2008) 1173-1195.
2007
Aaronson, S. and Kuperberg, G., 2007, June. Quantum versus classical proofs and advice. In Twenty-Second Annual IEEE Conference on Computational Complexity (CCC'07) (pp. 115-128). arXiv:quant-ph/0604056.
2006
2005
Kuperberg, G., 2005. A subexponential-time quantum algorithm for the dihedral hidden subgroup problem. SIAM Journal on Computing, 35(1), pp.170-188, arXiv:quant-ph/0302112.
Kuperberg, G., 2005. A tracial quantum central limit theorem. Transactions of the American Mathematical Society, 357(2), pp.459-471, arXiv:math-ph/0202035.
2004
2003
Kuperberg, G., 2003. The capacity of hybrid quantum memory. IEEE Transactions on Information Theory, 49(6), pp.1465-1473, arXiv:quant-ph/0203105.
2002
Kuperberg, G., Random words, quantum statistics, central limits, random matrices. Methods Appl. Anal. 9 (2002), 101-119, arXiv:math/9909104.
2001
2000
C. Moore and and J. P. Crutchfield, "Quantum Automata and Quantum Grammars", Theoretical Computer Science 237 (2000) 275-306.