红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2014年
4期
1057-1061
,共5页
邵士勇%梅海平%黄印博%饶瑞中
邵士勇%梅海平%黃印博%饒瑞中
소사용%매해평%황인박%요서중
等效吸收系数%迈克尔逊干涉%荣格指数%相位改变量%延迟时间
等效吸收繫數%邁剋爾遜榦涉%榮格指數%相位改變量%延遲時間
등효흡수계수%매극이손간섭%영격지수%상위개변량%연지시간
effective absorption index%michelson interference%junge index%phase change%delay time
以强吸收性的煤烟气溶胶为例,分析了其等效吸收系数与反映粒子分布的荣格指数的关系,指出随荣格指数的增大,吸收系数呈现出先减小后增大的“U”形结构。对同一成分的气溶胶来说,小粒子的容热能力高于大粒子,随着大粒子的增多,延迟时间逐渐缩短。以光纤式迈克尔逊干涉的简易平台为基础,考察了镜面反射光经准直器端面的透射光和准直器端面反射光所形成的干涉光,在1.064μm近红外平行光束垂直照射下的相位变化,利用相位变化量和等效吸收的关系,获取了晴天、雾天、纸张燃烧的薄烟雾及浓烟雾的大气气溶胶等效吸收的发展过程,测量灵敏度达到10-6 m-1,分析了环境温度渐变引起的迈克尔逊干涉信号基线的飘移,为气溶胶吸收过程的详细研究和吸收系数的实际测量提供了试验基础。
以彊吸收性的煤煙氣溶膠為例,分析瞭其等效吸收繫數與反映粒子分佈的榮格指數的關繫,指齣隨榮格指數的增大,吸收繫數呈現齣先減小後增大的“U”形結構。對同一成分的氣溶膠來說,小粒子的容熱能力高于大粒子,隨著大粒子的增多,延遲時間逐漸縮短。以光纖式邁剋爾遜榦涉的簡易平檯為基礎,攷察瞭鏡麵反射光經準直器耑麵的透射光和準直器耑麵反射光所形成的榦涉光,在1.064μm近紅外平行光束垂直照射下的相位變化,利用相位變化量和等效吸收的關繫,穫取瞭晴天、霧天、紙張燃燒的薄煙霧及濃煙霧的大氣氣溶膠等效吸收的髮展過程,測量靈敏度達到10-6 m-1,分析瞭環境溫度漸變引起的邁剋爾遜榦涉信號基線的飄移,為氣溶膠吸收過程的詳細研究和吸收繫數的實際測量提供瞭試驗基礎。
이강흡수성적매연기용효위례,분석료기등효흡수계수여반영입자분포적영격지수적관계,지출수영격지수적증대,흡수계수정현출선감소후증대적“U”형결구。대동일성분적기용효래설,소입자적용열능력고우대입자,수착대입자적증다,연지시간축점축단。이광섬식매극이손간섭적간역평태위기출,고찰료경면반사광경준직기단면적투사광화준직기단면반사광소형성적간섭광,재1.064μm근홍외평행광속수직조사하적상위변화,이용상위변화량화등효흡수적관계,획취료청천、무천、지장연소적박연무급농연무적대기기용효등효흡수적발전과정,측량령민도체도10-6 m-1,분석료배경온도점변인기적매극이손간섭신호기선적표이,위기용효흡수과정적상세연구화흡수계수적실제측량제공료시험기출。
The black carbon, which absorbs light intensively, was selected for analysis of relation between effective absorption and Junge index. With increase of Junge index, the absorption coefficient numbers of black carbon firstly descended then ascended, somewhat liked "U". For aerosol from the same source, the saving heat capacity of small particles was stronger than large ones. When content of large particles increased gradually, delay time droped correspondingly. Based on optical fiber Michelson interference, transmitting light of reflected light by mirror interfered with reflected light by inner surface of collimator. Phase changed when the interfering light path was illuminated by 1.064μm parallel light. It was recorded that effective absorption of aerosol from sunshine, fog, thin and dense smoke from burned paper using relation between phase variation and effective absorption coefficient, and corresponding sensitivity was 10-6 m-1. The baseline of signal always drifted slowly since environment temperature nearly changed all the time. The foundation was shown for research of absorption process and measurement of absorption coefficient.
