Experiments have shown that individual photons penetrate an optical tunnel barrier with an effective group velocity considerably greater than the vacuum speed of light. The experiments were conducted with a two-photon parametric down-conversion light source, which produced correlated, but random, emissions of photon pairs. The two photons of a given pair were emitted in slightly different directions so that one photon passed through the tunnel barrier, while the other photon passed through the vacuum. The time delay for the tunneling photon relative to its twin was measured by adjusting the path length difference between the two photons in a Hong-Ou-Mandel interferometer, in order to achieve coincidence detection. We found that the photon transit time through the barrier was smaller than the twin photon’s transit time through an equal distance in vacuum, indicating that the process of tunneling in quantum mechanics is superluminal. Various conflicting theories of tunneling times are compared with experiment.
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11 March 1999
Mysteries, puzzles, and paradoxes in quantum mechanics
Aug - Sept 1998
Lake Garda (Italy)
Research Article|
March 11 1999
Tunneling times and superluminality: a tutorial
Raymond Y. Chiao
Raymond Y. Chiao
Department of Physics, Univ. of California, Berkeley, California 94720-7300
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AIP Conf. Proc. 461, 3–13 (1999)
Citation
Raymond Y. Chiao; Tunneling times and superluminality: a tutorial. AIP Conf. Proc. 11 March 1999; 461 (1): 3–13. https://doi.org/10.1063/1.57888
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