W. H. Press S. A. / Cambridge University Press / X. / /
Country
United States / /
Facility
University of Georgia / University of California / /
IndustryTerm
geometrical solution / natural solution / Typical solutions / possible adiabatic solutions / quantum processor / qubit processor / fixed energy / electronics / lowest-energy eigenstate / signal processing / quantum systems / near-optimum solution / control electronics / quantum computing / minimum-time solution / energy / /
Organization
Cambridge University / University of Georgia / Athens / American Physical Society / University of California / Santa Barbara / USA Michael R. Geller Department of Physics and Astronomy / John M. Martinis Department of Physics / /
Person
H. Wang / A. N. Cleland / Z. Zhou / A. N. Korotkov / Lev Bishop / Y. Yin / Hx Hz / A. Cleland / A. Vainsencher / P. Roushan / M. R. Geller / J. M. Martinis / J. Wenner / T. White / Nat / B. Johnson / D. Sank / Matteo Mariantoni / J. Ghosh / MICHAEL R. GELLER PHYSICAL / R. Fazio / V / A. Galiautdinov / T. Yamamoto / M. Weides / John M. Martinis / J. Zhuang / /
PHYSICAL REVIEW A 90, Fast adiabatic qubit gates using only σ z control John M. Martinis Department of Physics, University of California, Santa Barbara, California 93106, USA