Michael Hatridge
Michael Hatridge
Assistant Professor, University of Pittsburgh
Verified email at - Homepage
Cited by
Cited by
Confining the state of light to a quantum manifold by engineered two-photon loss
Z Leghtas, S Touzard, IM Pop, A Kou, B Vlastakis, A Petrenko, KM Sliwa, ...
Science 347 (6224), 853-857, 2015
Autonomously stabilized entanglement between two superconducting quantum bits
S Shankar, M Hatridge, Z Leghtas, KM Sliwa, A Narla, U Vool, SM Girvin, ...
Nature 504 (7480), 419-422, 2013
Dispersive magnetometry with a quantum limited SQUID parametric amplifier
M Hatridge, R Vijay, DH Slichter, J Clarke, I Siddiqi
Physical Review B 83 (13), 134501, 2011
Quantum Back-Action of an Individual Variable-Strength Measurement
M Hatridge, S Shankar, M Mirrahimi, F Schackert, K Geerlings, T Brecht, ...
Science 339 (6116), 178-181, 2013
Quantum memory with millisecond coherence in circuit QED
M Reagor, W Pfaff, C Axline, RW Heeres, N Ofek, K Sliwa, E Holland, ...
Physical Review B 94 (1), 014506, 2016
Tracking photon jumps with repeated quantum non-demolition parity measurements
L Sun, A Petrenko, Z Leghtas, B Vlastakis, G Kirchmair, KM Sliwa, A Narla, ...
Nature 511 (7510), 444-448, 2014
Reconfigurable Josephson circulator/directional amplifier
KM Sliwa, M Hatridge, A Narla, S Shankar, L Frunzio, RJ Schoelkopf, ...
Physical Review X 5 (4), 041020, 2015
SQUID-detected magnetic resonance imaging in microtesla fields
J Clarke, M Hatridge, M Mößle
Annu. Rev. Biomed. Eng. 9, 389-413, 2007
Robust concurrent remote entanglement between two superconducting qubits
A Narla, S Shankar, M Hatridge, Z Leghtas, KM Sliwa, E Zalys-Geller, ...
Physical Review X 6 (3), 031036, 2016
SQUID-detected microtesla MRI in the presence of metal
M Mößle, SI Han, WR Myers, SK Lee, N Kelso, M Hatridge, A Pines, ...
Journal of Magnetic Resonance 179 (1), 146-151, 2006
Non-Poissonian quantum jumps of a fluxonium qubit due to quasiparticle excitations
U Vool, IM Pop, K Sliwa, B Abdo, C Wang, T Brecht, YY Gao, S Shankar, ...
Physical review letters 113 (24), 247001, 2014
Josephson amplifier for qubit readout
B Abdo, F Schackert, M Hatridge, C Rigetti, M Devoret
Applied Physics Letters 99 (16), 162506, 2011
Stabilizing a Bell state of two superconducting qubits by dissipation engineering
Z Leghtas, U Vool, S Shankar, M Hatridge, SM Girvin, MH Devoret, ...
Physical Review A 88 (2), 023849, 2013
Josephson directional amplifier for quantum measurement of superconducting circuits
B Abdo, K Sliwa, S Shankar, M Hatridge, L Frunzio, R Schoelkopf, ...
Physical review letters 112 (16), 167701, 2014
Calculated signal-to-noise ratio of MRI detected with SQUIDs and Faraday detectors in fields from 10μT to 1.5 T
W Myers, D Slichter, M Hatridge, S Busch, M Mößle, R McDermott, ...
Journal of Magnetic Resonance 186 (2), 182-192, 2007
Comparing and combining measurement-based and driven-dissipative entanglement stabilization
Y Liu, S Shankar, N Ofek, M Hatridge, A Narla, KM Sliwa, L Frunzio, ...
Physical Review X 6 (1), 011022, 2016
Full coherent frequency conversion between two propagating microwave modes
B Abdo, K Sliwa, F Schackert, N Bergeal, M Hatridge, L Frunzio, AD Stone, ...
Physical review letters 110 (17), 173902, 2013
SQUID-detected in vivo MRI at microtesla magnetic fields
M Mossle, WR Myers, SK Lee, N Kelso, M Hatridge, A Pines, J Clarke
IEEE transactions on applied superconductivity 15 (2), 757-760, 2005
Measurements of T1‐relaxation in ex vivo prostate tissue at 132 μT
S Busch, M Hatridge, M Mößle, W Myers, T Wong, M Mück, K Chew, ...
Magnetic Resonance in Medicine 67 (4), 1138-1145, 2012
Characterizing entanglement of an artificial atom and a cavity cat state with Bell’s inequality
B Vlastakis, A Petrenko, N Ofek, L Sun, Z Leghtas, K Sliwa, Y Liu, ...
Nature communications 6 (1), 1-8, 2015
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