no code implementations • 23 Feb 2021 • Jochen Braumüller, Amir H. Karamlou, Yariv Yanay, Bharath Kannan, David Kim, Morten Kjaergaard, Alexander Melville, Bethany M. Niedzielski, Youngkyu Sung, Antti Vepsäläinen, Roni Winik, Jonilyn L. Yoder, Terry P. Orlando, Simon Gustavsson, Charles Tahan, William D. Oliver
Interacting many-body quantum systems show a rich array of physical phenomena and dynamical properties, but are notoriously difficult to study: they are challenging analytically and exponentially difficult to simulate on classical computers.
no code implementations • 5 Mar 2020 • Youngkyu Sung, Antti Vepsäläinen, Jochen Braumüller, Fei Yan, Joel I-Jan Wang, Morten Kjaergaard, Roni Winik, Philip Krantz, Andreas Bengtsson, Alexander J. Melville, Bethany M. Niedzielski, Mollie E. Schwartz, David K. Kim, Jonilyn L. Yoder, Terry P. Orlando, Simon Gustavsson, William D. Oliver
System noise identification is crucial to the engineering of robust quantum systems.
Superconducting circuits have emerged as a promising platform to build quantum processors.
The aim of this review is to provide quantum engineers with an introductory guide to the central concepts and challenges in the rapidly accelerating field of superconducting quantum circuits.
Quantum Physics Mesoscale and Nanoscale Physics Applied Physics
Quantum annealing is a computing paradigm that has the ambitious goal of efficiently solving large-scale combinatorial optimization problems of practical importance.