Measurement of the Probability of a Binary Symbol «0» Erasing in a Single-Photon Asynchronous Communication Channel with a Receiver Based on a Photon Counter

IF 0.2 Q4 INSTRUMENTS & INSTRUMENTATION
A. M. Timofeev
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引用次数: 0

Abstract

Receiving modules of single-photon communication channels should provide the least loss of transmitted information when measuring low-power optical signals. In this regard, it is advisable to use photon counters. They are highly sensitive, but are characterized by data logging errors. Therefore, the purpose of this work was to investigate the effect of the intensity of the recorded optical radiation during the transmission of binary symbols «0» on the probability of erasing these symbols in a single-photon communication channel containing a photon counter based on an avalanche photodetector as a receiving module with a passive avalanche suppression scheme.The lower and upper threshold levels of pulses recorded at the output of the photon counter, as well as the statistical distributions of the mixture of the number of dark and signal pulses at the output of the photon counter when registering binary symbols «0» Pst0( N ) and «1» Pst1( N ) were determined. For this, a technique was used to reduce information loss. As a result, the minimum probability of erasing binary symbols «0» P(–/0) was achieved.The performed experimental results showed that to achieve the minimum probability of erasing binary symbols «0» P(–/0) = 0,11·10−2, it is important to select not only the intensity of the used optical radiation J , but also the supply voltage of the avalanche photodetector U, at which the dead time of the photon counter is −2 minimal, and its quantum detection efficiency is maximum: J0 ≥ 98,94·10−2 rel. units and U = 52,54 V. 
基于光子计数器的单光子异步通信信道中二进制符号«0»擦除概率的测量
在测量低功率光信号时,单光子通信通道的接收模块应提供最小的传输信息损失。在这方面,建议使用光子计数器。它们是高度敏感的,但其特点是数据记录错误。因此,本研究的目的是研究二进制符号«0»传输过程中记录的光辐射强度对在单光子通信通道中擦除这些符号的概率的影响,该通道包含一个基于雪崩光电探测器的光子计数器,作为接收模块,具有被动雪崩抑制方案。确定了在光子计数器输出端记录的脉冲的下、上阈值水平,以及在登记二进制符号“0”Pst0(N)和“1”Pst1(N)时,在光子计数器输出端记录的暗脉冲和信号脉冲的混合数量的统计分布。为此,使用了一种技术来减少信息丢失。结果,实现了擦除二进制符号«0»P(- /0)的最小概率。实验结果表明,要达到消除二进制符号«0»的最小概率P(- /0) = 0,11·10−2,不仅要选择所使用的光辐射强度J,而且要选择雪崩光电探测器的供电电压U,在此电压下光子计数器的死区时间最小,量子探测效率最高:J0≥98,94·10−2 rels单位,U = 52,54 V。
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来源期刊
Devices and Methods of Measurements
Devices and Methods of Measurements INSTRUMENTS & INSTRUMENTATION-
自引率
25.00%
发文量
18
审稿时长
8 weeks
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