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AsH_3分子的振动平动能量弛豫

Vibrational-Translational Energy Transfer of AsH_3
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摘要 用增强型光声池显著降低了光声信号的面损耗,使得AsH3 分子的振动平动能量转移成为造成共振峰展宽的主要因素。光声池内充9.06 kPa的AsH3 气体,声共振品质因子Q高达374。推导了光声信号振幅与入射光调制频率和样品分子振动-平动弛豫时间的函数关系。理论公式与实验数据的对比表明,对振动热容贡献大的振动能级在气体分子的振动平动能量转移过程中起主要作用;波动过程中AsH3 分子通过最低的两个振动能级进行振动平动能量交换。 With an enhanced photoacoustic cell, the surface loss of the cell is decreased obviously, thus the resonant peak broadening is mainly due to the vibrational-translational (V-T) relaxation of AsH3. The high quality factor Q value of 374 has been achieved for AsH3 gas at the pressure of 9.06 kPa. An expression for acoustic wave amplitude as a function of modulation frequency and relaxation time has been derived. This theoretical formula is fitted to the experimental data, then the relaxation process of AsH3 is studied. The results reveal that the V-T energy transfer of gas molecules is determined mainly by the molecules' vibrational states, which contribute the most to the vibrational heat capacity; and the two-energy level double relaxation process is the most possible process for the vibrational-translation energy transfer for AsH3.
出处 《中国激光》 EI CAS CSCD 北大核心 2005年第4期492-496,共5页 Chinese Journal of Lasers
基金 国家自然科学基金(10274077 20103007)资助项目。
关键词 光谱学 能量转移 光声效应 弛豫 声共振 Arsenic compounds Energy transfer Gas lasers Molecular vibrations
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