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Bremer JW, Newhouse VL. Phys. Rev. Lett.. 1958;1:282.
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Bardeen J, Mattis DC. Theory of the anomalous skin effect in normal and superconducting metals. Phys Rev. 1958;111(2):412–7.
Abstract: Chambers' expression for the current density in a normal metal in which the electric field varies over a mean free path is derived from a quantum approach in which use is made of the density matrix in the presence of scattering centers but in the absence of the field. An approximate expression used for the latter is shown to reduce to one derived by Kohn and Luttinger for the case of weak scattering. A general space-and time-varying electromagnetic interaction is treated by first-order perturbation theory. The method is applied to superconductors, and a general expression derived for the kernel of the Pippard integral for fields of arbitrary frequency. The expressions derived can also be used to discuss absorption of electromagnetic radiation in thin superconducting films.
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Rothwarf A, Taylor BN. Measurement of recombination lifetimes in superconductors. Phys. Rev. Lett.. 1967;19(1):27–30.
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Pfleegor RL, Mandel L. Interference of independent photon beams. Phys. Rev.. 1967;159(5):1084–8.
Abstract: Interference effects produced by the superposition of the light beams from two independent single-mode lasers have been investigated experimentally. It is found that interference takes place even under conditions in which the light intensities are so low that, with high probability, one photon is absorbed before the next one is emitted by one or the other source. Since the average number of registered photons per trial was only about 10, photon correlation techniques were required to demonstrate the interference. The interpretation of the experiment, and the question whether it demonstrates interference between two photons, are discussed.
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Broglie L de, Silva JA e. Interpretation of a recent experiment on interference of photon beams. Phys. Rev.. 1968;172(5):1284–5.
Abstract: The interpretation of an important recent experiment by Pfleegor and Mandel according to the causal formulation of the wave-particle dualism is developed. This interpretation is simpler and seems more satisfactory than that provided by the current ideas on the nature of light.
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