光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2014年
8期
2180-2184
,共5页
马维光%谭巍%赵刚%李志新%付小芳%董磊%张雷%尹王保%贾锁堂
馬維光%譚巍%趙剛%李誌新%付小芳%董磊%張雷%尹王保%賈鎖堂
마유광%담외%조강%리지신%부소방%동뢰%장뢰%윤왕보%가쇄당
NICE-OHMS%频率调制%光谱线型%密度矩阵理论
NICE-OHMS%頻率調製%光譜線型%密度矩陣理論
NICE-OHMS%빈솔조제%광보선형%밀도구진이론
NICE-OHMS%Frequency modulation%Spectral lineshape%Density matrix theory
噪声免疫腔增强光外差分子光谱(NICE-OHMS)作为世界上最灵敏的光谱技术可以被应用到痕量气体检测、频率标准、原子分子光谱以及超灵敏引力波测量等领域中,高精细度谐振腔吸收池的使用在增长激光与腔内物质相互作用路径的同时,极大的提高了腔内激光功率,这就会饱和低气压下的气态样品吸收线从而获得亚多普勒光谱结构,因此NICE-OHMS 技术不仅具有高灵敏、还具有超高分辨的优点。该研究基于光与二能级分子相互作用的密度矩阵理论对NICE-OHMS技术中包含亚多普勒的多普勒展宽光谱线型进行了理论推导,获得了光谱线型的表达式,同时以该表达式对光谱线型进行了数值模拟,其中调制频率、饱和参量、频率调制系数分别设置为384 MHz,10和0.2。由模拟结果可见吸收光谱由两个边带的吸收信号构成,在包络上存在四个亚多普勒饱和结构;色散光谱由载频以及边带的色散三者决定,并在包络上存在五个亚多普勒饱和结构,获得了与已有实验一致的结果。最后重点分析了不同探测相位、不同饱和参量下的NICE-OHMS光谱线型尤其是亚多普勒结构的变化,由于饱和参量按照调制系数分配给载频和边带,因此虽然载频饱和参量很大,但NICE-OHMS吸收光谱幅度变化不大,主要是由于该光谱信号只与边带饱和参量有关,可以看出NICE-OHMS多普勒展宽信号具有饱和效应免疫的特性,与已有实验结果也符合较好。为更进一步的实验研究提供了必要的理论基础。
譟聲免疫腔增彊光外差分子光譜(NICE-OHMS)作為世界上最靈敏的光譜技術可以被應用到痕量氣體檢測、頻率標準、原子分子光譜以及超靈敏引力波測量等領域中,高精細度諧振腔吸收池的使用在增長激光與腔內物質相互作用路徑的同時,極大的提高瞭腔內激光功率,這就會飽和低氣壓下的氣態樣品吸收線從而穫得亞多普勒光譜結構,因此NICE-OHMS 技術不僅具有高靈敏、還具有超高分辨的優點。該研究基于光與二能級分子相互作用的密度矩陣理論對NICE-OHMS技術中包含亞多普勒的多普勒展寬光譜線型進行瞭理論推導,穫得瞭光譜線型的錶達式,同時以該錶達式對光譜線型進行瞭數值模擬,其中調製頻率、飽和參量、頻率調製繫數分彆設置為384 MHz,10和0.2。由模擬結果可見吸收光譜由兩箇邊帶的吸收信號構成,在包絡上存在四箇亞多普勒飽和結構;色散光譜由載頻以及邊帶的色散三者決定,併在包絡上存在五箇亞多普勒飽和結構,穫得瞭與已有實驗一緻的結果。最後重點分析瞭不同探測相位、不同飽和參量下的NICE-OHMS光譜線型尤其是亞多普勒結構的變化,由于飽和參量按照調製繫數分配給載頻和邊帶,因此雖然載頻飽和參量很大,但NICE-OHMS吸收光譜幅度變化不大,主要是由于該光譜信號隻與邊帶飽和參量有關,可以看齣NICE-OHMS多普勒展寬信號具有飽和效應免疫的特性,與已有實驗結果也符閤較好。為更進一步的實驗研究提供瞭必要的理論基礎。
조성면역강증강광외차분자광보(NICE-OHMS)작위세계상최령민적광보기술가이피응용도흔량기체검측、빈솔표준、원자분자광보이급초령민인력파측량등영역중,고정세도해진강흡수지적사용재증장격광여강내물질상호작용로경적동시,겁대적제고료강내격광공솔,저취회포화저기압하적기태양품흡수선종이획득아다보륵광보결구,인차NICE-OHMS 기술불부구유고령민、환구유초고분변적우점。해연구기우광여이능급분자상호작용적밀도구진이론대NICE-OHMS기술중포함아다보륵적다보륵전관광보선형진행료이론추도,획득료광보선형적표체식,동시이해표체식대광보선형진행료수치모의,기중조제빈솔、포화삼량、빈솔조제계수분별설치위384 MHz,10화0.2。유모의결과가견흡수광보유량개변대적흡수신호구성,재포락상존재사개아다보륵포화결구;색산광보유재빈이급변대적색산삼자결정,병재포락상존재오개아다보륵포화결구,획득료여이유실험일치적결과。최후중점분석료불동탐측상위、불동포화삼량하적NICE-OHMS광보선형우기시아다보륵결구적변화,유우포화삼량안조조제계수분배급재빈화변대,인차수연재빈포화삼량흔대,단NICE-OHMS흡수광보폭도변화불대,주요시유우해광보신호지여변대포화삼량유관,가이간출NICE-OHMS다보륵전관신호구유포화효응면역적특성,여이유실험결과야부합교호。위경진일보적실험연구제공료필요적이론기출。
In the present paper a theoretical description of the line shapes of frequency modulated noise-immune cavity-enhanced optical heterodyne molecular spectroscopy (NICE-OHMS)under saturated conditions is presented.Expressions for both Doppler broadened and Doppler free frequency modulated NICE-OHMS signals at their absorption and dispersion phases are given.The modulation frequency,saturation parameter and frequency modulation index are set to 384 MHz,10 and 0. 2,respectively in the simulation.Based on the simulated line shape curves,in the absorption detection phase there are four sub Doppler structures ex-isting in the spectral envelope of absorption signals of two sidebands,and in the dispersion phase there are five sub-Doppler structures existing in the spectral envelope of dispersion signals of carrier and two sidebands.The sub-Doppler structure origi-nates from the fact that two counter propagating waves interact with the same group of molecules and one can act as a detecting beam and the other can act as a pumping beam.Therefore the sub-Doppler structure can appear at laser carrier and sidebands fre-quency and their middle frequencies of carrier and sidebands.Since NICE-OHMS absorption signal is only related to the absorp-tion of sidebands the small saturation parameters of two sidebands can not saturate the Doppler broadened signal too much.Al-though the NICE-OHMS dispersion signal includes the dispersion of carrier and two sidebands,the amplitude of Doppler broad-ened signal does not have so much influence by saturation except for the Doppler free signal.Therefore NICE-OHMS technique is a good candidate for the high sensitive detection of gas medium but with high selectivity under the condition of low pressure. Finally the dependences of NICE-OHMS line shape on the detection phase and saturation parameter are simulated and analyzed, the results of which nicely agree with the existing experimental results.The researches on NICE-OHMS line shapes will help ex-plain the phenomena of related experiment.
