DEVELOPMENT OF AN FPGA-BASED COINCIDENCE COUNTING SYSTEM FOR MULTIPLE SIGNALS

IF 0.1 Q4 PHYSICS, MULTIDISCIPLINARY Anales AFA Pub Date : 2023-03-28 DOI:10.31527/analesafa.2023.34.1.27

M. Bolaños, A. Boette, F. Videla, L. Rebón

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Abstract

The detection of temporally coincident signals plays an important role in different technological applications for metrology and communication, and particularly, in the area of quantum optics. In this sense, the simultaneous detection of two or more photons allows one to take advantage of the non-classical features of light that manifest themselves in certain types of correlations that cannot be described classically. We present here the development of programmable modules, by using FPGA technology, which are part of the coincident pulse detection and counting system. Our implementation, in a development board from Xilinx, allows to determine when two or more pulses overlap within a temporal window, with a configurable width in the range of 1 and 255 ns to compensate for possible path differences. We obtained the photodetection statistics result of the single and coincident pulse measurements and compared them with that predicted by a theoretical analysis. In addition, we have emulated the signals corresponding to different photon sources through a beam splitter, and obtained the photodetection statistics from which we determine, for each case, the second order correlation function g(2)(τ).

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基于fpga的多信号巧合计数系统的研制

时间同步信号的检测在计量和通信的不同技术应用中起着重要的作用，特别是在量子光学领域。从这个意义上说，同时探测两个或更多光子使人们能够利用光的非经典特征，这些特征在某些类型的相关性中表现出来，而这些相关性是不能用经典方法描述的。本文介绍了利用FPGA技术开发的可编程模块，该模块是同步脉冲检测和计数系统的一部分。我们的实现，在Xilinx的开发板上，允许确定两个或多个脉冲何时在一个时间窗口内重叠，在1到255 ns范围内的可配置宽度，以补偿可能的路径差异。得到了单脉冲和同步脉冲的光探测统计结果，并与理论分析预测结果进行了比较。此外，我们通过分束器模拟了不同光子源对应的信号，并获得了光探测统计量，从中我们确定了每种情况下的二阶相关函数g(2)(τ)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Anales AFA PHYSICS, MULTIDISCIPLINARY-

CiteScore

0.40

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0.00%

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