Jonathan Du Bois
About Jonathan Du Bois
Jonathan Du Bois is the Quantum Coherent Device Physics Group Leader at Lawrence Livermore National Laboratory, where he has worked as a Research Scientist since 2010. He specializes in the integration of cryogenic classical computing with quantum-classical devices and the development of hybrid quantum-classical algorithms.
Work at Lawrence Livermore National Laboratory
Jonathan Du Bois has been a Research Scientist at Lawrence Livermore National Laboratory since 2010, accumulating 14 years of experience in this role. He has served as the Quantum Coherent Device Physics Group Leader since 2017, overseeing research initiatives in quantum device physics. His work focuses on integrating cryogenic classical computing with quantum-classical devices, contributing to advancements in the field.
Education and Expertise
Jonathan Du Bois earned a Bachelor of Science degree in physics from the University of Florida, where he studied from 1987 to 1994. He later obtained a PhD in computational condensed matter physics from the University of Delaware, completing his studies from 1995 to 2002. His academic background supports his expertise in hybrid quantum-classical algorithms and quantum optimal control research.
Background
Before joining Lawrence Livermore National Laboratory, Jonathan Du Bois held several postdoctoral research positions. He worked as a Postdoctoral Research Associate at the University of California, Berkeley from 2004 to 2007 and at the University of Delaware from 2002 to 2004. He also served as a postdoc at Lawrence Livermore National Laboratory from 2007 to 2010, gaining valuable experience in quantum many-body and open quantum system dynamics.
Research Focus
Jonathan Du Bois engages in research on quantum many-body and open quantum system dynamics. His current focus includes the integration of cryogenic classical computing with quantum-classical devices, as well as the development of hybrid quantum-classical algorithms. His contributions to quantum optimal control research further enhance the understanding and application of quantum technologies.