Pulse imaging and nonadiabatic control of solid-state artificial atoms
Journal article, 2009
Transitions in an artificial atom, driven nonadiabatically through an energy-level avoided crossing, can be controlled by carefully engineering the driving protocol. We have driven a superconducting persistent-current qubit with a large-amplitude radio-frequency field. By applying a biharmonic wave form generated by a digital source, we demonstrate a mapping between the amplitude and phase of the harmonics produced at the source and those received by the device. This allows us to image the actual wave form at the device. This information is used to engineer a desired time dependence, as confirmed by the detailed comparison with a simulation. © 2009 The American Physical Society.
Author
Jonas Bylander
Chalmers, Microtechnology and Nanoscience (MC2), Quantum Device Physics
M.S. Rudner
A.V. Shytov
S.O. Valenzuela
D.M. Berns
K.K. Berggren
L.S. Levitov
W.D. Oliver
Physical Review B - Condensed Matter and Materials Physics
24699950 (ISSN) 24699969 (eISSN)
Vol. 80 22 220506-Subject Categories
Nano Technology
Condensed Matter Physics
DOI
10.1103/PhysRevB.80.220506