Nathan Schine received his B.A. in physics from Williams College in 2013 and his Ph.D. in 2019 from the University of Chicago. There, he worked with Jonathan Simon to create strongly-interacting topological materials made of light. Nathan then joined the lab of Adam Kaufman at JILA as an NRC Postdoctoral Research Fellow where he developed a state-of-the-art strontium tweezer array apparatus for investigations of ultra-coherent optical atomic clocks, quantum information processing, and many-body physics. In the fall of 2022, Nathan joined the faculty at the University of Maryland. His group focuses on the intersection of controlled coherent dynamics and engineered dissipation in quantum systems, implemented by interfacing a neutral atom array with an optical cavity.
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Centers & Institutes: Quantum Materials Center
Ronald Walsworth earned his B.S. in Physics from Duke University and his Ph.D. in Physics from Harvard University. His research interests are in developing precision measurement tools and applying them to diverse problems across the physical and life sciences. Walsworth is the recipient of the Francis Pipkin Award in Precision Measurements from the American Physical Society; the Smithsonian Institution Exceptional Service Award; and the Duke University Faculty Scholar Award. He is a Fellow of the American Physical Society and serves as a Distinguished Traveling Lecturer for the Division of Laser Science of the American Physical Society. Walsworth is also a Minta Martin Professor in the UMD Department of Electrical and Computer Engineering and Founding Director of the Quantum Technology Center.
Alicia Kollár received her B.A. in Physics from Princeton University in 2010 and her Ph.D. from Stanford University in 2016. In her doctoral studies with Benjamin Lev, she worked on the design and construction of a multimode cavity-BEC apparatus to study superradiant self-organization. She was awarded a Princeton Materials Science Postdoctoral Fellowship in 2017 to work with Andrew Houck on quantum simulation of solid-state physics using circuit QED lattices. Her research will focus on using novel coplanar waveguide lattice techniques and graph theory to design and realize microwave photonic crystals with unusual structures such as gapped flat bands and spatial curvature. She will combine these structures with multimode/waveguide circuit QED to engineer quantum simulators of lattice and spin models.
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Centers & Institutes: Joint Quantum Institute, Quantum Technology Center
Edo Waks received his Ph.D. in Electrical Engineering from Stanford University while working with Professor Yoshihisa Yamamoto in the area of quantum optics and quantum information. After graduating, he became a postdoctoral fellow at Stanford, working with Professor Jelena Vuckovic in the Ginzton Laboratory on nanophotonic implementations of quantum information processing, before joining the ECE Department as assistant professor for the Fall 2006 semester. He received his B.S. and M.S. from the Electrical Engineering Department at the Johns Hopkins University in Baltimore, Md.
Waks is a National Science Foundation (NSF) Fellow and was a member of Tau Beta Pi, the engineering honor society, at Stanford. He won the Department of Central Intelligence Postdoctoral Fellowship Award sponsored by the Army Research and Development Activity, which funded his postdoctoral research. He received a National Science Foundation Graduate Fellowship (1996-1999), and the William Huggins Award for Outstanding Achievement in Computer and Electrical Engineering, from Johns Hopkins University (1995). He holds appointments in the Department of Electrical and Computer Engineering and the Institute for Reasearch in Electronics and Applied Physics
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Centers & Institutes: Joint Quantum Institute, Quantum Technology Center