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1.
以Nd:YAG脉冲激光器泵浦的光学参量发生器/放大器(OPG/OPA)作激发光源,获得了420~472nm波长范围内NO分子的双光子激光荧光激发谱,并利用此技术对NO分子的能级结构进行了实验研究,将所得谱线峰归属为NO(A2∑←X2Ⅱ)的跃迁,荧光强度随激光强度的二次方变化关系表明此过程是一双光子激发过程.利用实验所得峰值波长计算了NO(A2∑)态的基振动频率ωe和平衡位置的力常数k.通过对NO分子A2∑→X2Ⅱ跃迁的荧光时间分辨光谱进行实验研究,得到266 Pa气压下A2∑(v′=0)态的能级寿命τ=53.76ns.测量荧光寿命随气压的变化,利用曲线拟合得到NOA2∑(v′=0,1)两振动态的自发辐射寿命和无辐射跃迁驰豫速率常数. 相似文献
2.
以Nd :YAG脉冲激光器泵浦的光学参量发生器 放大器 (OPG OPA)作激发光源 ,获得了 4 2 0~ 4 72nm波长范围内NO分子的双光子激光荧光激发谱 ,并利用此技术对NO分子的能级结构进行了实验研究 ,将所得谱线峰归属为NO(A2 Σ←X2 Π)的跃迁 ,荧光强度随激光强度的二次方变化关系表明此过程是一双光子激发过程。利用实验所得峰值波长计算了NO(A2 Σ)态的基振动频率ωe 和平衡位置的力常数k。通过对NO分子A2 Σ→X2 Π跃迁的荧光时间分辨光谱进行实验研究 ,得到 2 6 6Pa气压下A2 Σ(v′ =0 )态的能级寿命τ=5 3 76ns。测量荧光寿命随气压的变化 ,利用曲线拟合得到NOA2 Σ(v′=0 ,1) 两振动态的自发辐射寿命和无辐射跃迁驰豫速率常数 相似文献
3.
NO2分子在440~495 nm范围内的激光诱导荧光激发谱 总被引:3,自引:3,他引:0
以 NdYAG脉冲激光器泵浦的光学参量发生器/放大器作激发光源, 获得了室温、低气压条件下, NO2分子在440~495 nm波长范围内的激光诱导荧光激发谱, 将所得谱线峰归属为NO2由基电子态X2A1态向第二电子激发态B2B1态的跃迁, 利用实验所得峰值波长计算了NO2分子B2B1态的角振动频率ωe. 通过对NO2分子B2B1→X2A1跃迁的荧光时间分辨光谱进行实验研究, 得到15 Pa气压下B2B1(0, 9, 0)振动态的能级寿命τ=49 μs. 测量了荧光寿命随气压的变化关系, 利用曲线拟合得到NO2 B2B1(0, 9, 0)振动态的自发辐射寿命τ0≈55 μs和无辐射跃迁弛豫速率常数. kq=1.2×10-9 cm3 molecule-1s-1. 相似文献
4.
以Nd∶YAG脉冲激光器抽运的光学参量发生器/放大器作激发光源,采用激光诱导荧光光谱技术对NO2分子激发电子态的荧光辐射寿命进行了实验研究。结果显示,NO2分子的荧光辐射寿命与激发波长、样品气压密切相关。不同波长的激光激发NO2分子,激发电子态荧光辐射的时间分辨谱均以双指数规律衰减,荧光辐射由长、短两种寿命成分组成,短寿命成分产生于NO2分子A2B2和B2B1←X2A1激发跃迁的荧光辐射,而长寿命成分产生于NO2分子由X2A1向A2B2与X2A1耦合能级激发跃迁的荧光辐射。通过分析两种寿命成分随样品气压变化的机理,确定了产生短寿命荧光的受激分子主要通过辐射荧光和快速的内转换过程退激发;而产生长寿命荧光的受激分子除辐射荧光外,则主要通过碰撞无辐射跃迁过程退激发。 相似文献
5.
在气束条件下,利用483.2nm的激光(3+1)共振增强多光子电离(REMPI)CS2分子以产生CS2+离子源,用另一束可调谐激光在424-482nm内,通过对CS2^+(x^2∏g)(1+1)双光子共振解离产生的碎片离子发谱的探测,来获取CS2^+的光解离动力学信息,光解离碎片S^+的激光发谱(PHOFEX)可归属为CS2^+(A^2∏u,3/2(v′=0-4,v′=v1_(1/2)v2-)←X^2′∏g,3/2(0,0,0))和(A^2∏u,1/2(v=0-4)←X^2∏g,1/2(0,0,0))跃迁,对CS2^+光解离动力学的研究表明,其产生S^+的通道为:(i)CS2吸收一个光子从基态X^2∏g共振激发至A^-2∏u态,(ii)已布居的A^-2∏u态的振动能级和X^2-∏g态的高振动能级产生耦合,(iii)吸收第二个光子从上述耦合的振动能级进一步激发至B^2∑u^+态,再通过B^-2∑u^+态与^4∑^-态间的自旋-轨道相互作用,经由4∑^-排斥态解离产生S^+_CS。 相似文献
6.
用一束波长为360.55nm的激光,通过N2O分子的(3 1)共振增强多光子电离过程制备纯净的母体离子N2O^ X^2Π3/2,1/2(000).用另一束可调谐激光将N2O^ 离子激发至预解离态A^2Σ^ ,利用飞行时间质谱检测解离碎片NO^ 离子强度随光解光波长的变化,在278—328nm波长范围内获得了光解碎片的激发(PHOFEX)谱.观测到了N2O^ 离子A^2Σ^ ←X^2Π电子跃迁较丰富的振动谱带.通过对PHOFEX光谱的标识,获得了A^2Σ^态较准确和全面的分子光谱常数. 相似文献
7.
8.
研究了CS2分子^1B2(^1∑u^+)预离解态线形势垒下的g振动能级光解动力学,包括预解离寿命、产物振转布居、平动-振动-转动能量分配和解离通道分支比.在实验过程中,一束可调谐激光激发超声射流冷却的CS2分子到^1B2(^1∑u^+)电子态,光解产物CS用另一束可调谐激光通过激光诱导荧光(LIF)方法检测.通过拟合光解碎片激发谱的谱峰轮廓,获得了源于不同跃迁初始态的^1B2(^1∑u^+)态g振动能级的预解离寿命.通过分析CS的LIF光谱,则获得了不同光解波长下CS碎片的v=0—8振动态布居、v=1、4—8振动态的转动布居、能量分配以及两个预解离通道CS(X^1∑^+)+S(^3PJ)和CS(X^1∑^+)+S(^1D2)的分支比.实验还考察了初始态弯曲振动量子数v2″、振动角动量量子数l对解离动力学的影响.发现v2″的影响不大,而l的影响却是明显的.较大的l(=K)对应于较短的寿命和较小的通道分支比S(^3PJ)/S(^1D2),即大的l(=K)有利于预解离的发生,同时更有利于产生S(^1D2). 相似文献
9.
NO2分子电子激发态荧光辐射寿命的测定 总被引:1,自引:0,他引:1
利用激光诱导荧光技术,实验测定了NO2分子513~520 nm范围内AA~U22B2电子激发态6个不同振转能级激光诱导荧光衰减寿命,研究了激发态荧光寿命与气压和激发波长的关系,得到了无碰撞衰减寿命和碰撞猝灭系数,并对其反常长寿命进行了讨论 相似文献
10.
将荧光光谱和光声光谱两种互补的探测技术结合起来,从辐射和无辐射跃迁两个方面,分析了 532nm激光作用下,NO2分子的激发和弛豫过程.发现NO2分子在激光作用下,将跃迁至第一激发电子态.当样品气压较低时,受激NO2分子除辐射荧光外,可通过快速的内能转移过程实现在几个振转能级的再布居;随样品气压的升高,分子间碰撞加剧,受激NO2分子通过分子间的碰撞,实现在多个振转能级的再布居.激光布居能级的荧光辐射效率随样品气压的升高逐渐降低,而长波区域的荧光辐射及光声信号强度逐渐增强,说明在高样品气压条件下,受激NO2分子的弛豫过程除辐射荧光外,还存在很强的碰撞弛豫过程,在碰撞弛豫过程中受激NO2分子将振动能转化为热运动的平动能,引起温度升高而产生很强的声信号. 相似文献
11.
Collisional energy transfer processes K2[1(1) sigmau+ (nu'=2)]+He, H2-->K2[1(1) sigmau+(nu'=1,3)]+He, H2 were studied by laser induced fluorescence under gas cell conditions. During the experiments, the cell temperature was kept constant at 420K. The buffer gas pressure was varied over the range from 40 to 250 Pa, Kz molecules were irradiated with pulses of radiation from an OPO laser, populating K2[1(1) sigmau+ (nu'=2)] by photon absorption. The resulting fluorescence included the direct component emitted in the decay of the optically excited state and the sensitized components arising from collisionally populated states. The decay signal of time-resolved fluorescence from 1(1) sigmau+ (nu'=2)]-->1(1) sigmag+(nu"=0) transition was monitored. In the early period after excitation, only very little population in states v'= 1 or 3 had yet accumulated, the rate of collisional activation to the state nu'=2 was negligible. The decay curve of the nu' = 2-->nu" = 0 was treated as a single exponential function. From the measurement of the time-resolved fluorescence, the semilog plot was shown. The slope yielded the effective lifetime of the nu' = 2--> nu' = 0 transition. Based on the Stern-Volmer equation, the radiative lifetime (36 +/- 7) ns was obtained. The total cross sections for deactivation of 1(1) sigmau1 (nu'=2) state by means of collisions with He and H2 are (3.0 +/- 0.5) x 10(-16) cm2 and (6.4 +/- 1.2) x 10(-15) cm2, respectively. The radiative lifetimes of 1(1) sigmau+(nu' = 1,3) states can also be determined through time-resolved fluorescence in pure K vapor. The time-integrated intensities of 1(1)sigmau+(nu' = 1,2,3)-->1(1) sigmag+(nu"=0) transition at different He or Hz pressure were measured. The ratio of fluorescence intensities versus 1/P(He, H2) can be fitted by a straight line. The slopes yield the cross sections sigma(nu'=2-->nu'=1) = (1.4 +/- 0.5) x 10(-16) cm2 and (3.2 +/- 1.0) x 10(-15) cm2; sigma(nu'=2-->nu'=3)= (1.2 +/- 0.4) x 10(-16) cm2 and (2.6 +/- 0.9) x 10(-15) cm2 for He and H2, respectively. Cross sections for the effective quenching of the nu' = 1,2,3 states were also determined. To our knowledge, the cross-sections for these processes are reported for first time. 相似文献
12.
NO分子双光子诱导荧光的自吸收现象 总被引:1,自引:1,他引:0
以皮秒Nd:YAG激光器抽运的光学参量发生/放大器为激发光源,获得了在452.4 nm波长激光激发下,NO分子的双光子激光诱导色散荧光光谱(LIDFS)。并由此得到了NO分子基电子态的振动基频和振动非谐性系数分别为ω″e=(1 904.7±7.3) cm-1, ω″eχ″e=(14.2±1.2) cm-1, ω″ey″e=-(0.021 8±0.009 1) cm-1。在NO分子双光子LIDFS实验研究中,首次观测到了NO分子强烈的自吸收现象,在较高样品气压条件下,色散荧光光谱图中对应A 2Σ(v′=0)→X 2Π(v″=0)跃迁的谱线消失。实验结果表明,自吸收现象导致的该跃迁谱线强度的变化,随样品气压、激光场和样品作用区到荧光接收窗口距离的减小而减小。 相似文献
13.
The resonance-enhanced multiphoton ionization (REMPI) spectrum of NO has been obtained in the range of 420-480 nm with a Nd:YAG pumped optical parametric generator and amplifier. The spectral linescan be attributed to NO X2П(v" = 0, 1) → A2∑(v' = 0, 1) transitions. In this wavelength range, NO molecules are ionized via the resonant intermediate state A2∑+ and by a (2 + 2) REMPI process. The dependence of ion signals on laser intensity and gas pressure is discussed. The variation of the ionization signal versus laser intensity is near quartic. This is in good agreement with theory. 相似文献
14.
The laser-induced fluorescence excitation spectrum of the A2Σ-X2Π3/2 transition of CuO in the 540-620nm region has been studied, where the CuO molecule was produced by using the technique of dc discharge reaction under a supersonic condition. We have recorded and rotationally analysed the 0-0, 1-0, 2-0 and 3-0 bands. The rotational constants of the upper state A2Σ- were determined and vibrational constants improved. In addition, the lifetime measurement for the A2Σ- state was carried out under the collision-free condition, and the lifetimes obtained are 469±2, 456±2, 488±3 and 490±4ns for v'=0, v'=1, v'=2 and v'=3 levels, respectively. 相似文献
15.
共振增强多光子电离及飞行时间质谱技术是一种具有高分辨率、高灵敏度的光谱研究技术。利用上述技术研究了由激光光解NO2产物-NO与原子O的离子谱,获得了振转态高度分辨的NO(X^2П,v″,J″)γ(0,0)γ(0,1)γ(1,1)带的离子谱以及自旋-轨道精细能级分辨的氧原子O(2P^3PJ^″=2,1,0)离子谱。氧原子O(2P^3PJ^″=2→3P^3PJ^″、2P^3PJ^″=1→3P^3PJ′、2P^3PJ″=0→3P^3PJ′)的离子信号位于紫外电离探测激光的波长分别为225.65nm,226.04nm,226.23nm。实验表明,共振增强多光子电离加飞行时间技术研究原子、分子光谱其灵敏度与分辨率远高于常用的激光感生荧光方法。所得到的NO分子与氧原子的离子谱及它们的离子信号对NO2分子光解及NO分子与氧原子的电离动力学研究提供了有益的实验信息。 相似文献
16.
利用激光泵浦-探测技术,在样品池条件下,研究了Cs(6D5/2)态与H2反应生成的CsH分子基电子态的转动和振动的量子态分布。在Cs-H2混合蒸气中,脉冲激光双光子激发Cs(6D5/2)态,另一台调频脉冲激光器扫描CsHX1Σ+(v″,J″)→A1Σ+(v′,J′=J″±1)吸收线,发现CsH分子只有v″=0和1上的振动带上有布居而不布居在v″1的振动带上。v″=0和1上的转动带分布呈现单峰结构,其峰值位于J″=6~8处,转动带分布轮廓与池温下的统计分布接近。转动Boltzmann温度分别为(458±20)K(对v″=1)和(447±18)K(对v″=0),得到的CsH分子的转动温度稍低于池温。从转动态分布得到v″=1与v″=0上布居数之比约为0.897,从而计算出CsH基电子态上的平均转动能ER和平均振动能EV,有效能减去平均振转能得到平均平动能ET。CsH分子3种能量的相对比值fT∶fV∶ 相似文献
17.
脉冲激光激发Rb原子至6 D态,Rb(6 D)与H2反应生成RbH(Х1Σ+,ν″=0~2)振动态。研究了RbH(Х1Σ+)高位振动态与H2,N2间的碰撞弛豫过程,利用泛频泵浦分别激发Х1Σ+(ν″=0)至Х1Σ+(ν″=15~22)各振动态,检测激光激发Х1Σ+(ν″)至A1Σ+(ν′),测量A1Σ+(ν′)的时间分辨激光感应荧光光谱,利用Stern-Volmer方程,得到振动能级ν″的总的弛豫速率系数kν(H2)。在H2和N2的混合气体中,总弛豫速率系数kν(H2+N2)与α(H2的摩尔配比)成直线的关系,其斜率为kν(H2)-kν(N2),而截距为kν(N2)。对于ν″<18主要发生单量子弛豫(Δν=1)过程,kν(H2)和kν(N2)与振动量子数ν″均成线性增加关系。对于ν″≥18,多量子弛豫(Δν≥2)过程及共振振动-振动转移起重要作用。对于RbH(ν″=21)+N2(0),测量ν″=16的布居数时间演化轮廓,在20μs内有一个锐锋,在100~200μs内有一个较低的宽峰,锐锋相应于RbH(ν″=21)+N2(0)→RbH(ν″=16)+N2(1)的共振转移过程,而宽峰是由相继的单量子过程产生的。 相似文献
18.
We present an analysis of the A0(+)(6(3)P(1))-->X0(+)(6(1)S(0)) bound-bound and bound-free fluorescence spectrum, and of the A0(+)(6(3)P(1))<--X0(+)(6(1)S(0)) and B1(6(3)P(1))<--X0(+)(6(1)S(0)) bound-bound excitation spectrum of the HgKr van der Waals molecule. The A-->X fluorescence spectrum, which was observed for the first time, as well as the excitation spectra were recorded using a pulsed supersonic molecular beam crossed with a pulsed dye laser beam. An analysis of the A(v')<--X(v"), B(v')<--X(v"), and A(v'=8)-->X(v") bound-bound bands indicates that a Morse function combined with a long-range approximation represents the interatomic potential energy curve of the A, B, and X states below the dissociation limit. In the simulation of the A(v'=8)-->X bound-free spectrum the Morse, Lennard-Jones (n-6), and Maitland-Smith (n(0), n(1)) functions were tested, and the Maitland-Smith (11.39, 10.50) potential was found to be a good representation of the repulsive part of the X-state PE curve above the dissociation limit, over the internuclear separation range R=2.85-3.55 ?. The spectroscopic characteristics for the A, B, and X states obtained in this work are compared with other available experimental and theoretical results. Copyright 2001 Academic Press. 相似文献
19.
利用光学-光学双共振光谱技术研究了NaK分子21Σ+→61Σ+跃迁线的碰撞增宽。一台单模半导体激光器实现11Σ+(v″,J″)→21Σ+(v′,J′)的跃迁,另一单模半导体激光器激发21Σ+(v′,J′)能级到61Σ+的振转能级,二激光束反向平行通过样品池。谱线总线宽与K原子密度成线性关系,由其斜率得到增宽速率系数kbr=(1.4±0.7)×10-8 cm3·s-1。同时研究了21Σ+(v=8,J=12)→21Σ+(v=8,J=13,14)转动能级间的碰撞激发转移,测量谱线的相对强度,由速率方程得到碰撞转移速率分别为6.1×106和5.2×106 s-1。 相似文献