激光激发荧光谱的双光路多道分析方法研究

在脉冲激光激发荧光的研究中由于入射激光强度的起伏会导致所激发荧光的强度随之波动 ,从而给荧光光谱及其待测物质测量结果带来较大误差。采用双光路法 (即在采集荧光谱的同时也采集激发激光强度 ,利用荧光强度与激发光强度的线性相关 ,对实验数据进行相关分析 )可以有效地克服激发光波动对荧光光谱的影响 ,显著降低了测量误差。用此法对若丹明 6G和十二烷基硫酸纳 (SDS)对R6G的荧光增强进行测量 ,可得到相关系数大于 0 9的测量结果。在激发光波动较大时双光路法与单光路采样平均法相比有明显优越性。

激光激发荧光谱的双光路多道分析方法研究

使用双光路相关方法有效的克服了激光激发荧光谱分析中激发激光波动对荧光光谱分析的影响 ,显著降低了分析误差。在对若丹明 6G荧光和对十二烷基硫酸钠 (SDS)对R6G的荧光增强的测量中 ,相关系数大于 0 9。和采样平均法比较表明 ,在激发光波动较大时 ,此方法有明显优势。

NO_2分子在440～495nm范围内的激光诱导荧光激发谱

以Nd :YAG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4 4 0～4 95nm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X2 A1 态向第二电子激发态B2 B1 态的跃迁,利用实验所得峰值波长计算了NO2 分子B2 B1 态的角振动频率ωe。通过对NO2 分子B2 B1 →X2 A1 跃迁的荧光时间分辨光谱进行实验研究,得到15Pa气压下B2 B1 (0 ,9,0 )振动态的能级寿命τ=4 9μs。测量了荧光寿命随气压的变化关系,利用曲线拟合得到NO2 B2 B1 (0 ,9,0 )振动态的自发辐射寿命τ0 ≈5 5 μs和无辐射跃迁弛豫速率常数。kq=1 2×10 - 9cm3molecule- 1 s- 1 。

NO_2 分子 51 9～ 52 4nm区的激光诱导荧光激发谱

实验测定了室温下NO2 分子在 5 19～ 5 2 4nm区域的高分辨激光诱导荧光激发谱 ,标识了 2 5个振动带 ,并作了转动分析 ,确定了这些带的带源、转动常数以及旋 转偶合常数等分子常数 ,其中有 8个振动带是新发现的 ,对振动带的转动结构分析表明 ,所有得到转动标识的谱线均属于平行跃迁2 B2 - ～X2 A1,其中上振动能级具有B2 对称类是由于电子激发态 ～A2 B2 与电子基态的振动能级之间的强烈相互作用所致。

超声射流CCl_2自由基激光诱导荧光激发谱

用CCl4 /Ar混合气体脉冲直流高压放电产生CCl2 自由基 ,在超声射流冷却下获得了CCl2 A 1B1- X 1A14 40～ 5 80nm的K 结构分辨的激光诱导荧光激发谱 .通过K 结构分辨谱的分析 ,对 72 2条转动子谱带进行了归属 ,得到了激发态CCl2 A 1 B1的两个全对称振动模式的振动频率、非谐性常数和转动常数差值 ,即激发态的振动频率ω1=6 31.2 0cm-1,ω2 =30 2 .0 0cm-1,A′-B′ =3.476cm-1.

超声射流冷却丁二酮的激光诱导荧光激发谱

在超声射流条件下获得了丁二酮在 4 32 4 51nm波段的激光诱导荧光激发谱 .在前人标识为 0 00 带谱峰的红端观察到 3个很弱的谱峰分别位于 0 ,87,97cm- 1 处 (以 2 2 182cm- 1 为 0cm- 1 ) .在 87和 97cm- 1 附近精细扫描 ,观测到 87和 97cm- 1 谱峰的隧道分裂分别为 1.0 5cm- 1 和 1.68cm- 1 ,与理论计算的分裂值符合得很好 ,从而确定了S1 ←S0 跃迁 0 00 带的位置在 2 2 182cm- 1 .87cm- 1 和 97cm- 1 处的谱峰分别为丁二酮基态S0 到激发态S1 的卡齿模 (G1 0 )和反卡齿模 (A1 0 )振动激发 .此外 ,首次对丁二酮S1 —S0 态激光诱导荧光激发谱进行较完整的标识 ,得出S1 态的羰基骨架扭曲振动模的振动频率 91.1cm- 1 ,非谐性常数 4 .875cm- 1 .

NO分子A^2Σ←X^2Π跃迁的激光双光子荧光激发谱

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)

C_2负离子B^2∑_μ^+←X^2∑_g^+激光诱导荧光激发谱

由CH4/Ar放电产生C2负离子,在超声射流条件下,观测到B←X(1-0)跃迁的激光诱导荧光激发谱。对该谱带的转动结构进行了标识,并得到X(v=0)和B(v=1)态的转动常数。另外测量了B(v=1)振动态的寿命,其寿命为80±1 ns。

NS和SO自由基的激光诱导荧光激发谱研究

在超声射流条件下,采用激光诱导荧光(LIF)光谱技术对含硫双原子自由基NS和SO进行了光谱研究.测定了NS在34500-39300cm-1范围内的激光诱导荧光激发谱,并归属为N32S自由基的B2Π1/2-X2Π1/2和B2Π3/2-X2Π3/2跃迁,和同位素分子N34S的B2Π1/2-X2Π1/2跃迁,由光谱振转分析结果给出了N32S和N34S的B态的平衡光谱常数.同时实验测定了SO在34000-43000cm-1范围内的激光诱导荧光激发谱,将其归属为SO自由基的B3Σ--X3Σ-跃迁,并测量了B态部分振转能级的荧光辐射寿命.

超声射流CCl_2自由基激光诱导荧光激发谱

对CCl4/Ar混合气体脉冲直流高压放电产生CCl2自由基,在超声射流冷却下获得了CCl2A珟1B1-X珟1A1420～600nm波长范围的激光诱导荧光激发谱,系统标识了9个带系,81个振动带,其中56个振动带是我们新标识的.通过CCl2自由基的超声射流LIF谱与常温下压力为150Pa左右的LIF谱相结合分析,初步证实CCl2自由基电子态带源为17255.04cm-1.

NO_2分子505-520nm区激光诱导荧光激发谱的转动分析

实验测定了室温下NO2 分子 50 5～ 52 0nm区域高分辨激光诱导荧光激发谱 ,在 50 5～ 52 0nm范围内标识了 10个振动带 ,并作了转动分析 ,得到了相应的带头位置、转动常数和旋 转耦合常数等 ,发现了 4个新的振动带 ,对振动带的转动分析结果表明 ,所有得到分析的谱线均属于平行跃迁 X1A1- A2 B2 ,电子激发态 A2 B2 与基态 X2 A1高振动能级之间存在强烈的相互作用 .

超声射流冷却S_2自由基激光诱导荧光激发谱

在超声射流条件下,采用SF6/Ar（-10%）混合气束脉冲直流放电方法产生S2自由基,观测了32S2自由基在30000-35500 cm^-1波段的激光诱导荧光激发谱.通过对所观测到的40多个振动谱带的归属,确定其中28个谱带为S2自由基B^3∑^-μ-X^3∑^-g跃迁的（ν′=1-9,0）,（ν′=1-8,1）,（ν′=1-7,2）和（ν′=2-5,3）四个谱带序列.通过对所获谱带的转动分析,得到更为丰富的S2自由基B^3∑^-μ-X^3∑^-g跃迁谱带的转动光谱常数和更为精确的B^3∑^-μ电子态的平衡分子常数：Te,ωe,ωeχe,Be,αe和Re.另外,还测得所有观测到的谱带的寿命,进一步丰富了S2自由基B^3∑^-μ-X^2∑^-g跃迁谱带的光谱信息.

激光诱导NO_2分子500—532nm区荧光激发谱的实验研究

用准分子激光抽运可调谐染料窄带激光测定了室温下NO2 分子 5 0 0— 5 32nm区高分辨荧光激发谱 ,在两个较强吸收区 5 0 5— 5 10nm和 5 13— 5 2 0nm范围内标识了 2 5个振动带 ,并作了转动分析 ,得到了相应的带头位置、转动常数和旋 转偶合常数等分子光谱常数 ,在 2 5个振动带中有 5个谱带是新发现的 ,所有得到转动分析的谱线均属于平行跃迁X～ 2 A1—A～2 B2 ,对实验结果的分析表明电子激发态A～ 2B2 受到基态X～ 2

Laser-induced Fluorescence and Dispersed Fluorescence Spectroscopy of NiB： Identification of a New 2П State in 19000-22100 cm^-1

The laser-induced fluorescence excitation spectra of jet-cooled NiB radicals have been recorded in the energy range of 19000-22100 cm-1. Eleven bands have been assigned to the [20.77]2П-X2∑＋ transition system for the first time. The dispersed fluorescence spectra related to most of these bands have been investigated. Vibrationally excited levels of the ground electronic state, with v＂ up to 6, have been observed. In addition, the lifetimes for almost all the observed bands have also been measured.

Laser-induced Fluorescence Spectroscopy of CoS： Identification of a New Excited State Arising from the Ground State

Laser-induced fluorescence excitation spectra and dispersed fluorescence spectra of cobalt sulfide （COS） have been recorded in the energy range of 22400-24400 cm-1 （corresponding to 446-409 nm）. A new electronic transition progression with six vibronic bands, stemming from the X4AT/2 state of CoS, was identified and assigned to be [24.0014AT/2-X4A7/2. The new observed 4A state most probably originates from the core[10a2][47r3][lla2][153][57r3] electronic configuration. Strong perturbations are found to extensively exist in the transition bands of this new state. The rotational constants and lifetimes of these bands have been determined.

Laser-induced Fluorescence Excitation Spectrum of NiS in 15500-17200 cm^-1

The laser-induced fluorescence excitation spectrum of jet-cooled NiS molecule has been recorded in the energy range of 15500 17200 cm-1. Fifteen bands have been assigned as three transition progressions：[15.65]^3Ⅱ1（v′=0-4）-X^3∑0^-（v″=0）,[15.69]^3∑0^-（v′=0-4）-X^3∑0^-（v″=0）,and [15.81]^3Ⅱ1（v′=0-4）-X^3∑0^-（v″=0）.Spectroscopic constants for the three newly identified electronically excited states have been determined for the first time. In addition,the lifetimes for most observed vibronic bands have also been measured.

Laser-induced Fluorescence Spectroscopy of NiO between 510 and 650 nm

Laser-induced fluorescence excitation spectra of NiO have been recorded in the wavelength region of 510-650 nm under supersonic molecular beam conditions. More than fifty bands have been observed and rotationally analyzed to determine the molecular constants. The excited states exhibit highly irregular variations in terms of isotopic shifts, vibrational intervals, and rotational constants. Twenty-six bands attributed to [Ω=0, 1]-X3∑o transitions have been tentatively grouped into five vibrational progressions. Furthermore, dispersed fluorescence and lifetimes of the strong bands have also been measured.

Laser-induced Fluorescence Spectroscopy of NiCl in 12900-15000 cm-1

Laser-induced fluorescence excitation spectra of jet-cooled NiC1 molecules were recorded in the energy range of 12900-15000 cm-1. Six vibronic bands with rotational structure have been observed and assigned to the [13.0]2II3/2（v＇=0-5）-X2II3/2（v＂=0） transition progression. The relevant rotational constants, significant isotopic shifts, and （equilibrium） molecular parameters have been determined. In addition, the lifetimes of the observed bands have also been measured.