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- W2039779898 startingPage "929" @default.
- W2039779898 abstract "Interference effects produced by independent quantum sources are investigated, when the state of the field is not describable as a simple mixture of coherent states. The results of classical and quantum-mechanical calculations are compared. Whereas correlation effects are predicted both classically and quantum mechanically when the sources have random phases, there are important differences when the number of atoms is small. In particular, when each source consists of just one atom, the joint probability of detecting two photons at two different points in the receiving plane is found to vanish when the distance between them is an odd number of half fringes. Finally it is shown that when the number of atoms of each source is subject to Poisson fluctuations, one recovers the solution given by classical optics for thermal light, no matter how weak the sources may be on the average." @default.
- W2039779898 created "2016-06-24" @default.
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- W2039779898 date "1983-08-01" @default.
- W2039779898 modified "2023-10-02" @default.
- W2039779898 title "Photon interference and correlation effects produced by independent quantum sources" @default.
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- W2039779898 doi "https://doi.org/10.1103/physreva.28.929" @default.
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