In this paper, we report a mathematical derivation of probability density function (PDF) of time-interval between two successive photoelectrons of the laser heterodyne signal, and give a confirmation of the theoretical result by both numerical simulation and an experiment. The PDF curve of the beat signal displays a series of fluctuations, the period and amplitude of which are respectively determined by the beat frequency and the mixing efficiency. The beat frequency is derived from the frequency of fluctuations accordingly when the PDF curve is measured. This frequency measurement method still works while the traditional Fast Fourier Transform (FFT) algorithm hardly derives the correct peak value of the beat frequency in the condition that we detect 80 MHz beat signal with 8 Mcps (counts per-second) photons count rate, and this indicates an advantage of the PDF method. (C) 2012 Elsevier B.V. All rights reserved.
Liu L. S.,Zhang H. Y.,Guo J.,et al. Photon time-interval statistics applied to the analysis of laser heterodyne signal with photon counter[J]. Optics Communications,2012,285(18):3820-3826.
APA
Liu L. S.,Zhang H. Y.,Guo J.,Zhao S.,&Wang T. F..(2012).Photon time-interval statistics applied to the analysis of laser heterodyne signal with photon counter.Optics Communications,285(18),3820-3826.
MLA
Liu L. S.,et al."Photon time-interval statistics applied to the analysis of laser heterodyne signal with photon counter".Optics Communications 285.18(2012):3820-3826.
; Wang T. F.
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