Quantum phase tomography of a strongly driven qubit

Authors :: Federal Government of the United States
Krell Institute
National Science Foundation (US)
Air Force Office of Scientific Research (US)
University of Maryland
W. M. Keck Foundation
Massachusetts Institute of Technology
Department of Defense (US)
Rudner, Mark S.
Shytov, A. V.
Levitov, Leonid S.
Berns, David M.
Oliver, William D.
Valenzuela, Sergio O.
Orlando, Terry P.
Federal Government of the United States
Krell Institute
National Science Foundation (US)
Air Force Office of Scientific Research (US)
University of Maryland
W. M. Keck Foundation
Massachusetts Institute of Technology
Department of Defense (US)
Rudner, Mark S.
Shytov, A. V.
Levitov, Leonid S.
Berns, David M.
Oliver, William D.
Valenzuela, Sergio O.
Orlando, Terry P.
Publication Year :: 2008
Abstract: The interference between repeated Landau-Zener transitions in a qubit swept through an avoided level crossing results in Stückelberg oscillations in qubit magnetization, a hallmark of the coherent strongly driven regime in two-level systems. The two-dimensional Fourier transforms of the resulting oscillatory patterns are found to exhibit a family of one-dimensional curves in Fourier space, in agreement with recent observations in a superconducting qubit. We interpret these images in terms of time evolution of the quantum phase of the qubit state and show that they can be used to probe dephasing mechanisms.

Tools