Follow
Ya. S. Greenberg
Ya. S. Greenberg
Novosibirsk State Technical University
Verified email at online.nsk.su
Title
Cited by
Cited by
Year
Application of superconducting quantum interference devices to nuclear magnetic resonance
YS Greenberg
Reviews of Modern Physics 70 (1), 175, 1998
2481998
Low-frequency characterization of quantum tunneling in flux qubits
YS Greenberg, A Izmalkov, M Grajcar, E Il’ichev, W Krech, HG Meyer, ...
Physical Review B 66 (21), 214525, 2002
872002
Low-frequency measurement of the tunneling amplitude in a flux qubit
M Grajcar, A Izmalkov, E Il’Ichev, T Wagner, N Oukhanski, U Hübner, ...
Physical Review B 69 (6), 060501, 2004
802004
Nanomechanical resonators
Y Greenberg, YA Pashkin, E Il'ichev
Physics-Uspekhi 55 (4), 382, 2012
702012
Quantum behavior of a flux qubit coupled to a resonator
AN Omelyanchouk, SN Shevchenko, YS Greenberg, O Astafiev, E Il’ichev
Low Temperature Physics 36 (10), 893-901, 2010
562010
Amplification and attenuation of a probe signal by doubly dressed states
SN Shevchenko, G Oelsner, YS Greenberg, P Macha, DS Karpov, ...
Physical Review B 89 (18), 184504, 2014
412014
Low-frequency Rabi spectroscopy of dissipative two-level systems: Dressed-state approach
YS Greenberg
Physical Review B 76 (10), 104520, 2007
392007
Non-Hermitian Hamiltonian approach to the microwave transmission through a one-dimensional qubit chain
YS Greenberg, AA Shtygashev
Physical Review A 92 (6), 063835, 2015
372015
Low-frequency Rabi spectroscopy for a dissipative two-level system
YS Greenberg, E Il'ichev, A Izmalkov
Europhysics Letters 72 (6), 880, 2005
262005
Method for direct observation of coherent quantum oscillations in a superconducting phase qubit
YS Greenberg, A Izmalkov, M Grajcar, E Il’ichev, W Krech, HG Meyer
Physical Review B 66 (22), 224511, 2002
242002
Dynamic features of a charge qubit closed by a superconducting inductive ring
W Krech, M Grajcar, D Born, I Zhilyaev, T Wagner, E Il'Ichev, Y Greenberg
Physics Letters A 303 (5-6), 352-357, 2002
222002
Theory of the voltage–current characteristic of high Tc DC SQUIDs
YS Greenberg
Physica C: Superconductivity 371 (2), 156-172, 2002
192002
Experimental study of amplitude–frequency characteristics of high-transition-temperature radio frequency superconducting quantum interference devices
XH Zeng, Y Zhang, B Chesca, K Barthel, YS Greenberg, AI Braginski
Journal of Applied Physics 88 (11), 6781-6787, 2000
172000
Quantum signal transmission through a single-qubit chain
YS Greenberg, C Merrigan, A Tayebi, V Zelevinsky
The European Physical Journal B 86, 1-10, 2013
162013
Flux qubit as a sensor of magnetic flux
E Il'ichev, YS Greenberg
Europhysics Letters 77 (5), 58005, 2007
162007
Theory of the voltage–current characteristics of high TC asymmetric DC SQUIDs
YS Greenberg
Physica C: Superconductivity 383 (4), 354-364, 2003
162003
Signal amplification in a qubit-resonator system
DS Karpov, G Oelsner, SN Shevchenko, YS Greenberg, E Il'ichev
Low Temperature Physics 42 (3), 189-195, 2016
142016
Integrated thin film dc RSQUIDs for noise thermometry
S Menkel, D Drung, YS Greenberg, T Schurig
Journal of Low Temperature Physics 120 (5/6), 381-400, 2000
132000
Quantum theory of the low-frequency linear susceptibility of interferometer-type superconducting qubits
YS Greenberg, E Il’ichev
Physical Review B 77 (9), 094513, 2008
122008
Determination of parameters of high Tc RF SQUID from its small signal voltage-frequency characteristics
YS Greenberg
Journal of Low Temperature Physics 114 (3/4), 297-315, 1999
111999
The system can't perform the operation now. Try again later.
Articles 1–20