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Michael Gullans
Michael Gullans
Fellow, Joint Center for Quantum Information and Computer Science (QuICS), NIST/UMD
Verified email at umd.edu - Homepage
Title
Cited by
Cited by
Year
Coupling a single trapped atom to a nanoscale optical cavity
JD Thompson, TG Tiecke, NP de Leon, J Feist, AV Akimov, M Gullans, ...
Science 340 (6137), 1202-1205, 2013
5822013
Logical quantum processor based on reconfigurable atom arrays
D Bluvstein, SJ Evered, AA Geim, SH Li, H Zhou, T Manovitz, S Ebadi, ...
Nature 626 (7997), 58-65, 2024
5692024
Dynamical purification phase transition induced by quantum measurements
MJ Gullans, DA Huse
Physical Review X 10 (4), 041020, 2020
4562020
All-optical switch and transistor gated by one stored photon
W Chen, KM Beck, R Bücker, M Gullans, MD Lukin, H Tanji-Suzuki, ...
Science 341 (6147), 768-770, 2013
4132013
Critical properties of the measurement-induced transition in random quantum circuits
A Zabalo, MJ Gullans, JH Wilson, S Gopalakrishnan, DA Huse, JH Pixley
Physical Review B 101 (6), 060301, 2020
3192020
Entanglement phase transitions in measurement-only dynamics
M Ippoliti, MJ Gullans, S Gopalakrishnan, DA Huse, V Khemani
Physical Review X 11 (1), 011030, 2021
2842021
Shuttling a single charge across a one-dimensional array of silicon quantum dots
AR Mills, DM Zajac, MJ Gullans, FJ Schupp, TM Hazard, JR Petta
Nature Communications 10 (1), 1063, 2019
2772019
Scalable probes of measurement-induced criticality
MJ Gullans, DA Huse
Physical Review Letters 125 (7), 070606, 2020
2752020
Single-photon nonlinear optics with graphene plasmons
M Gullans, DE Chang, FHL Koppens, FJG de Abajo, MD Lukin
Physical review letters 111 (24), 247401, 2013
2552013
Two-qubit silicon quantum processor with operation fidelity exceeding 99%
AR Mills, CR Guinn, MJ Gullans, AJ Sigillito, MM Feldman, E Nielsen, ...
Science Advances 8 (14), eabn5130, 2022
2472022
Resonant microwave-mediated interactions between distant electron spins
F Borjans, XG Croot, X Mi, MJ Gullans, JR Petta
Nature 577 (7789), 195-198, 2020
2362020
Measurement-induced quantum phases realized in a trapped-ion quantum computer
C Noel, P Niroula, D Zhu, A Risinger, L Egan, D Biswas, M Cetina, ...
Nature Physics 18 (7), 760-764, 2022
218*2022
Superconductor–semiconductor hybrid-circuit quantum electrodynamics
G Burkard, MJ Gullans, X Mi, JR Petta
Nature Reviews Physics 2 (3), 129-140, 2020
1782020
Observation of three-photon bound states in a quantum nonlinear medium
QY Liang, AV Venkatramani, SH Cantu, TL Nicholson, MJ Gullans, ...
Science 359 (6377), 783-786, 2018
1692018
Semiconductor double quantum dot micromaser
YY Liu, J Stehlik, C Eichler, MJ Gullans, JM Taylor, JR Petta
Science 347 (6219), 285-287, 2015
1682015
Nanoplasmonic lattices for ultracold atoms
M Gullans, TG Tiecke, DE Chang, J Feist, JD Thompson, JI Cirac, P Zoller, ...
Physical review letters 109 (23), 235309, 2012
1622012
Entanglement and purification transitions in non-Hermitian quantum mechanics
S Gopalakrishnan, MJ Gullans
Physical review letters 126 (17), 170503, 2021
1302021
Scattering resonances and bound states for strongly interacting Rydberg polaritons
P Bienias, S Choi, O Firstenberg, MF Maghrebi, M Gullans, MD Lukin, ...
Physical Review A 90 (5), 053804, 2014
1142014
Operator scaling dimensions and multifractality at measurement-induced transitions
A Zabalo, MJ Gullans, JH Wilson, R Vasseur, AWW Ludwig, ...
Physical review letters 128 (5), 050602, 2022
1042022
Coherent transfer of quantum information in a silicon double quantum dot using resonant swap gates
AJ Sigillito, MJ Gullans, LF Edge, M Borselli, JR Petta
npj Quantum Information 5 (1), 110, 2019
942019
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Articles 1–20