物理学报2016,Vol.65Issue(19):193301-1-193301-7,7.DOI:10.7498/aps.65.193301
氟利昂F114B2分子在飞秒紫外辐射下的解离动力学∗
Multi-photon disso ciation dynamics of Freon 114B2 under UV radiation by femtosecond laser pulse
摘要
Abstract
The ozone layer which absorbs harmful solar UV radiation is a necessary umbrella for human beings and biosphere. A large amount of alkyl halide including freon exhausted by human into the atmosphere poses a great threat to the ozone layer. Freon dissociates into the product of halogen radical, like Br and Cl, induced by UV sunlight radiation, which is found to be the main culprit for the destruction of atmospheric ozone. In this paper, time-of-flight (TOF) mass spectrometry and velocity map imaging technique are employed for investigating the multiphoton dissociation dynamics of Freon F114B2 (C2F4Br2) induced by femtosecond UV radiation at 267 nm. Fragment mass spectra of C2F4Br2 under UV radiation at 266 nm are obtained by TOF mass spectrometry. Three daughter ions C2F4Br+, C2F+4 and CF2Br+are discovered together with the parent ions C2F4Br+2 . And three corresponding photodissociation mechanisms are concluded as follows: 1) C2F4Br+2 →C2F4Br++Br with single C—Br bond breaking and direct produc-tion of Br radical; 2) C2F4Br+2 →C2F+4+2Br with double C—Br bonds breaking and production of two Br radical; 3) C2F4Br+2 →CF2Br++CF2Br with C—C bond breaking. Velocity map images of the strongest daughter ion C2F4Br+with C—Br breaking are measured by imaging apparatus. The kinetic energy distribution of C2F4Br+ ions is obtained from the measured velocity map images. And it can be well fitted by three Gaussian curves which describe normal distribution. It indicates that the production of the fragment C2F4Br+ stems from three different dissociation channels. Additional photodissociation dynamics is obtained by analyzing the angular distribution of the measured image. The values of anisotropy parameter β are measured to be 0.1 (for the low energy channel), 0.8 (for the middle energy channel) and 1.4 (for the high energy channel) for the fragment C2F4Br+, respectively. The ratios of parallel transition to perpendic-ular transition are determined for three different channels. In addition, density functional theory calculations are also performed for further analysis and discussion. The optimized geometries of ground state and ionic state of C2F4Br2 are obtained and compared at the level of B3LYP/6-311G++(d, p). The calculated information about ionic states, including energy level and oscillator strength for the ionic excited states, are given.关键词
氟利昂114B2/光解离/离子速度成像/飞秒超快Key words
Freon114b2/photodissociation/velocity map imaging/femtosecond ultrafast引用本文复制引用
刘玉柱,邓绪兰,李帅,管跃,李静,龙金友,张冰..氟利昂F114B2分子在飞秒紫外辐射下的解离动力学∗[J].物理学报,2016,65(19):193301-1-193301-7,7.基金项目
国家自然科学基金(批准号:11304157,21303255)和江苏省六大人才高峰高层次人才项目(批准号:2015-JNHB-011)资助的课题 (批准号:11304157,21303255)
