D
David DeMille
Researcher at University of Chicago
Publications - 168
Citations - 13694
David DeMille is an academic researcher from University of Chicago. The author has contributed to research in topics: Electric dipole moment & Dipole. The author has an hindex of 45, co-authored 160 publications receiving 12148 citations. Previous affiliations of David DeMille include University of California, Berkeley & Lawrence Berkeley National Laboratory.
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Cold and ultracold molecules: science, technology and applications
TL;DR: A review of the current state of the art in the research field of cold and ultracold molecules can be found in this paper, where a discussion is based on recent experimental and theoretical work and concludes with a summary of anticipated future directions and open questions in rapidly expanding research field.
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Quantum computation with trapped polar molecules
TL;DR: This design can plausibly lead to a quantum computer with greater, approximately > or = 10(4) qubits, which can perform approximately 10(5) CNOT gates in the anticipated decoherence time of approximately 5 s.
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Search for New Physics with Atoms and Molecules
Marianna Safronova,Dmitry Budker,David DeMille,Derek F. Jackson Kimball,Andrei Derevianko,Charles W. Clark +5 more
TL;DR: In this article, the authors present a review of the application of atomic physics to address important challenges in physics and to look for variations in the fundamental constants, search for interactions beyond the standard model of particle physics and test the principles of general relativity.
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Order of Magnitude Smaller Limit on the Electric Dipole Moment of the Electron
Jacob Baron,Wesley C. Campbell,David DeMille,John M. Doyle,Gerald Gabrielse,Yulia V. Gurevich,Paul Hess,Nicholas R. Hutzler,Emil Kirilov,Ivan Kozyryev,Brendon O'Leary,Cristian Panda,Maxwell Parsons,Elizabeth Petrik,Ben Spaun,Amar C. Vutha,Adam West +16 more
TL;DR: Spin precession measurements in the polar molecule thorium monoxide indicate a nearly spherical charge distribution of an electron, which constrains T-violating physics at the TeV energy scale.
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Laser cooling of a diatomic molecule
TL;DR: This work experimentally demonstrates laser cooling of the polar molecule strontium monofluoride (SrF) using an optical cycling scheme requiring only three lasers, and bridges the gap between ultracold (submillikelvin) temperatures and the ∼1-K temperatures attainable with directly cooled molecules.