J
John M. Doyle
Researcher at Harvard University
Publications - 242
Citations - 13706
John M. Doyle is an academic researcher from Harvard University. The author has contributed to research in topics: Buffer gas & Laser cooling. The author has an hindex of 58, co-authored 241 publications receiving 11724 citations. Previous affiliations of John M. Doyle include Okayama University & Massachusetts Institute of Technology.
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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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Magnetic trapping of calcium monohydride molecules at millikelvin temperatures
TL;DR: In this paper, the authors used Zeeman spectroscopy to determine the number of trapped molecules and their temperature, and set upper bounds on the cross-sectional areas of collisional relaxation processes.
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A coherent all-electrical interface between polar molecules and mesoscopic superconducting resonators
A. André,A. André,David DeMille,John M. Doyle,M. D. Lukin,Stephen Maxwell,Peter Rabl,Robert Schoelkopf,Peter Zoller,Peter Zoller +9 more
TL;DR: In this article, the integration of a single-particle system with mesoscopic solid-state devices in a way that produces robust, coherent, quantum-level control has been described, where entanglement of distant qubits stored in long-lived rotational molecular states is achieved via exchange of microwave photons.
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Enantiomer-specific detection of chiral molecules via microwave spectroscopy
TL;DR: This work uses nonlinear resonant phase-sensitive microwave spectroscopy of gas phase samples in the presence of an adiabatically switched non-resonant orthogonal electric field to map the enantiomer-dependent sign of an electric dipole Rabi frequency onto the phase of emitted microwave radiation.
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Editorial: Quo vadis, cold molecules?
TL;DR: A snapshot of the rapidly developing field of ultracold polar molecules can be found in this paper, where the reader can find a review of the papers appearing in this Topical Issue.