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首页> 外文期刊>The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory >Dynamics of Cl (~2P_j) atom formation in the photodissociation of fumaryl chloride (ClCO - CH = CH - COCl) at 235 nm: A resonance enhanced multiphoton ionization (REMPI) time-of-flight (TOF) study
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Dynamics of Cl (~2P_j) atom formation in the photodissociation of fumaryl chloride (ClCO - CH = CH - COCl) at 235 nm: A resonance enhanced multiphoton ionization (REMPI) time-of-flight (TOF) study

机译:富马酰氯(ClCO-CH = CH-COCl)在235 nm的光解中Cl(〜2P_j)原子形成的动力学:共振增强多光子电离(REMPI)飞行时间(TOF)研究

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The photodissociation dynamics of fumaryl chloride (ClCO-CH=CH-COCl) has been studied in a supersonic molecular beam around 235 nm using resonance enhanced multiphoton ionization (REMPI) time-of-flight (TOF) technique by detecting the nascent state of the primary chlorine atom. A single laser has been used for excitation of fumaryl chloride and the REMPI detection of chlorine atoms in their spin-orbit states, Cl (~2P_(3/2)) and Cl* (~2P_(1/2)). We have determined the translational energy distribution, the recoil anisotropy parameter, β, and the spin-orbit branching ratio for chlorine atom elimination channels. To obtain these, measured polarization-dependent and state-specific TOF profiles are converted into kinetic energy distributions, using a least-squares fitting method, taking into account the fragment recoil anisotropies, βi. The TOF profiles for both Cl and Cl* are found to be independent of laser polarization; i.e., β is well characterized by a value of 0.0, within the experimental uncertainties. Two components, namely, the fast and the slow, are observed in the translational energy distribution, P(E_T), of Cl and Cl* atoms, and assigned to be formed from different potential energy surfaces. The average translational energies for the fast components of the Cl and Cl* channels are 14.9 ± 1.6 and 16.8 ± 1.6 kcal/mol, respectively. Similarly, for the slow components, the average translational energies of the Cl and Cl* channels are 3.4 ± 0.8 and 3.1 ± 0.8 kcal/mol, respectively. The energy partitioning into the translational modes is interpreted with the help of various models, such as impulsive and statistical models. Apart from the chlorine atom elimination channel, molecular hydrogen chloride (HCl) elimination is also observed in the photodissociation process. The HCl product has been detected, using a REMPI scheme in the region of 236-237 nm. The observation of the molecular HCl in the dissociation process highlights the importance of the relaxation process, in which the initially excited parent molecule relaxes to the ground state from where the molecular (HCl) elimination takes place.
机译:已经通过共振增强多光子电离(REMPI)飞行时间(TOF)技术在235 nm左右的超声分子束中研究了富马酰氯(ClCO-CH = CH-COCl)的光解离动力学,方法是检测该化合物的新生态。伯氯原子。单个激光已用于激发富马酰氯和REMPI检测自旋轨道状态的氯原子Cl(〜2P_(3/2))和Cl *(〜2P_(1/2))。我们确定了氯原子消除通道的平移能分布,反冲各向异性参数β和自旋轨道支化比。为了获得这些,使用最小二乘拟合法,考虑到片段反冲各向异性βi,将测得的偏振相关和状态特定的TOF轮廓转换为动能分布。发现Cl和Cl *的TOF曲线均与激光偏振无关。即,在实验不确定性范围内,β具有很好的特征,值为0.0。在Cl和Cl *原子的平移能分布P(E_T)中观察到两个分量,即快和慢,并被分配为由不同的势能面形成。 Cl和Cl *通道快速组分的平均平移能分别为14.9±1.6和16.8±1.6 kcal / mol。同样,对于慢速组分,Cl和Cl *通道的平均平移能分别为3.4±0.8和3.1±0.8 kcal / mol。借助冲动模型和统计模型等各种模型来解释将能量划分为转换模式的过程。除氯原子消除通道外,在光解离过程中还观察到了分子氯化氢(HCl)消除。已使用REMPI方案在236-237 nm范围内检测到HCl产物。在解离过程中观察到的分子HCl突出了弛豫过程的重要性,在弛豫过程中,最初被激发的母体分子弛豫到基态,从中发生分子(HCl)消除。

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