H
H. J. Kimble
Researcher at California Institute of Technology
Publications - 50
Citations - 16940
H. J. Kimble is an academic researcher from California Institute of Technology. The author has contributed to research in topics: Photon & Optical cavity. The author has an hindex of 36, co-authored 50 publications receiving 15748 citations. Previous affiliations of H. J. Kimble include University of Tokyo & National Institute of Standards and Technology.
Papers
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Journal ArticleDOI
Unconditional quantum teleportation
Akira Furusawa,J. L. Sørensen,Samuel L. Braunstein,Christopher A. Fuchs,H. J. Kimble,Eugene S. Polzik +5 more
TL;DR: The first realization of unconditional quantum teleportation where every state entering the device is actually teleported is realized, using squeezed-state entanglement.
Journal ArticleDOI
Teleportation of Continuous Quantum Variables
TL;DR: In this paper, a protocol for teleportation of a single mode of the electromagnetic field with high fidelity using squeezed-state entanglement and current experimental capability is presented, including the roles of finite quantum correlation and nonideal detection efficiency.
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Measurement of conditional phase shifts for quantum logic.
TL;DR: Measurements of the birefringence of a single atom strongly coupled to a high-finesse optical resonator are reported, with nonlinear phase shifts observed for an intracavity photon number much less than one.
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Photon blockade in an optical cavity with one trapped atom
TL;DR: Observations of photon blockade for the light transmitted by an optical cavity containing one trapped atom, in the regime of strong atom–cavity coupling represent an advance over traditional nonlinear optics and laser physics, into a regime with dynamical processes involving atoms and photons taken one-by-one.
Journal ArticleDOI
Observation of strong coupling between one atom and a monolithic microresonator
Takao Aoki,Barak Dayan,E. Wilcut,Warwick P. Bowen,Warwick P. Bowen,A. S. Parkins,A. S. Parkins,Tobias J. Kippenberg,Tobias J. Kippenberg,Kerry J. Vahala,H. J. Kimble +10 more
TL;DR: Strong coupling is achieved, with the rate of coherent coupling exceeding the dissipative rates of the atom and the cavity, and this work opens the way for investigations of optical processes with single atoms and photons in lithographically fabricated microresonators.