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计数率和分辨时间对光场统计性质测量的影响——单探测器直接测量的实验分析
引用本文:李园,李刚,张玉驰,王晓勇,王军民,张天才.计数率和分辨时间对光场统计性质测量的影响——单探测器直接测量的实验分析[J].物理学报,2006,55(11):5779-5783.
作者姓名:李园  李刚  张玉驰  王晓勇  王军民  张天才
作者单位:量子光学与光量子器件国家重点实验室,山西大学光电研究所,太原 030006
基金项目:国家自然科学基金;山西省留学回国人员科研项目;中俄协议项目;教育部高校科技创新工程重大项目;教育部长江学者奖励计划
摘    要:利用工作在盖革(Geiger)模式下的单光子探测器(single-photon-counting module, SPCM),采取单个探测器直接对光子计数的方法,对相干光场及热光场的光子数统计性质进行了测量和分析. 通过改变计数率,调整分辨时间,系统地研究了光场二阶相干度测量值受实验条件的影响. 结果表明,在综合考虑系统中的各种因素对测量影响的情况下,通过选择合适的测试条件,可以利用单个单光子探测器直接探测的方法快速确定一个待测光场的二阶相干度. 实验表明在实测计数率为109 kc/s,分辨时间范围为28ns—212ns的条件下,该系统能很好地揭示相干光场和热光场的光子统计性质. 关键词: 光子统计 单光子探测器 二阶相干度

关 键 词:光子统计  单光子探测器  二阶相干度
文章编号:1000-3290/2006/55(11)/5779-05
收稿时间:03 7 2006 12:00AM
修稿时间:2006-03-072006-04-05

The effect of counting rate and time resolution on the measured photon statistical properties——Experimental study of direct measurement via SPCM
Li Yuan,Li Gang,Zhang Yu-Chi,Wang Xiao-Yong,Wang Jun-Min,Zhang Tian-Cai.The effect of counting rate and time resolution on the measured photon statistical properties——Experimental study of direct measurement via SPCM[J].Acta Physica Sinica,2006,55(11):5779-5783.
Authors:Li Yuan  Li Gang  Zhang Yu-Chi  Wang Xiao-Yong  Wang Jun-Min  Zhang Tian-Cai
Institution:State Key Laboratory of Quantum Optics and Quantum Optics Devices, Institute of Opto-Electronics, Shanxi University, Taiyuan 030006, China
Abstract:Photon statistical properties of coherent field and thermal field are experimentally studied by means of direct photon counting using only one single-photon-counting module(SPCM)operating in Geiger mode.The second-order degree of coherence as affected by photon counting rate and selected resolution time is investigated systematically.By taking into account all the experimental factors which can influence the g(2),the second-order degree of coherence of an unknown optical field can be determined quickly and simply via single SPCM when choosing proper detecting conditions.In our experiment,when the counting rate is about 109 kc/s and the resolution time varies from 28 ns to 2 12 ns,the measured results can reliably reflect the different second-order degree of coherence of coherent and thermal fields.
Keywords:photon statistics  single-photon-counting module  second-order degree of coherence
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