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I. I. Rabi Prize

From Wikipedia, the free encyclopedia

The I. I. Rabi Prize in Atomic, Molecular, and Optical Physics is given by the American Physical Society to recognize outstanding work by mid-career researchers in the field of atomic, molecular, and optical physics. The award was endowed in 1989 in honor of the physicist I. I. Rabi and has been awarded biannually since 1991.

The prize citation reads:

"To recognize and encourage outstanding research in Atomic, Molecular and Optical Physics by investigators who have held a Ph.D. for no more than 10 years prior to the nomination deadline. The prize consists of $10,000 and a certificate citing the contributions made by the recipient. An allowance will be provided for travel expenses of the recipient to the Society meeting at which the prize is presented. It is awarded in odd-numbered years."[1]

Recipients

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Source:[2]

  • 1991 Chris H. Greene: "For his many contributions to atomic and molecular theory including studies of resonance vibronic processes, multiple electron excitations, photo-absorption in external fields, and threshold effects of long range forces."
  • 1993 Timothy E. Chupp: "For his contributions to the development of high density polarized noble gases by spin exchange with optically pumped alkali atoms and in particular for his leadership and use of polarized 3He as a target for fundamental experiments in nuclear physics."
  • 1995 Randall G. Hulet: "For his contributions to a broad range of important problems in atomic and optical physics including cavity quantum electrodynamics, quantum jumps, ion storage, and laser cooling of atoms. In the latter field, in particular for his demonstration of multiphoton cooling involving Doppleron resonances in neutral Lithium and his collision experiments with cooled Lithium vapor."
  • 1997 Eric Allin Cornell and Wolfgang Ketterle: "For achieving Bose-Einstein condensation of an atomic gas, for creating techniques for studying the Bose condensate, and for measuring the physical properties of the weakly interacting atomic Bose gas."
  • 1999 Mark G. Raizen: "For his pioneering advances in the experimental study of atom optics, and especially for the insightful connections he has developed between this discipline and studies of chaotic dynamics, condensed matter physics, and dissipative quantum systems."
  • 2001 Christopher Monroe: "For his pivotal experiments that implemented quantum logic using trapped atomic ions, and for his fundamental studies of coherence and decoherence in entangled quantum systems."
  • 2003 Mark A. Kasevich: "For developing atom interferometer inertial sensors with unprecedented precision, and for pioneering studies of Bose-Einstein condensates, especially the achievement of non-classical spin states and the demonstration of a mode-locked atom laser."
  • 2005 Deborah Jin:
  • 2007 Jun Ye: "For advances in precision measurement, including techniques for stabilizing and measuring optical frequencies, controlling the phase of femtosecond laser pulses, and measuring molecular transitions."
  • 2009 Mikhail Lukin: "For pioneering theoretical and experimental work at the interface between quantum optics, quantum information processing, and the quantum many body problem."
  • 2011 Cheng Chin: "For pioneering work in strongly interacting Fermi gas and few body physics including the discovery of the Effimov effect."
  • 2013 Markus Greiner: "For seminal contributions to the field of ultracold atoms, including the observation of the superfluid-to-Mott-insulator transition, the study of the BEC-BCS cross over for fermions, and the development of imaging techniques for atoms in optical lattices with single-atom resolution"
  • 2015 Ian Spielman: "For the development of quantum simulations using ultra-cold atoms, creation of synthetic electromagnetic fields, demonstration of synthetic spinorbit coupling, and applications to studying new physical systems."
  • 2017 Martin Zwierlein: "For seminal studies of ultracold Fermi gases, including precision measurements of the equation of state, the observation of superfluidity, solitons, vortices, and polarons, the realization of a microscope for fermions in a lattice; and the production of chemically stable polar molecules."
  • 2019 Kang-Kuen Ni: "For seminal work on ultracold molecules, including original contributions to the understanding of chemical reactions in the quantum regime, deterministic creation of individual molecules with optical tweezers, and development of novel, high-precision techniques to interrogate and control the complete set of internal molecular resources."
  • 2021 Monika Schleier-Smith: "For seminal work in quantum optics and for discoveries at the intersection of AMO, condensed matter, and quantum information, including original contributions to spin squeezing in optical cavities, engineering long-range interactions for quantum simulations, and metrology, and for theoretical development of a measurement protocol related to the scrambling of quantum information."
  • 2023 Adam M. Kaufman: "For seminal developments in optical tweezer arrays and clocks based on alkaline earth atoms, with applications to metrology and quantum information processing."

See also

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References

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  1. ^ a b American Physical Society. "I. I. Rabi Prize in Atomic, Molecular, and Optical Physics". Retrieved July 22, 2019.
  2. ^ The source of all citations quoted in this section is: American Physical Society. "I. I. Rabi Prize in Atomic, Molecular, and Optical Physics". Retrieved July 22, 2019.
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