氨分子的激发特征和电子态与振动态相互作用

Excitation Characteristics and Vibronic Interaction of NH3 Molecule

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摘要采用密度泛函(DFT)B3P86方法优化得到了氨分子的基态稳定构型、红外光谱和拉曼光谱,利用对称匹配耦合簇-组态相互作用(SAC/SAC-CI)方法在D95++基组水平上,研究了氨分子基态的激发特征。结果表明,氨分子基态的红外光谱频率和拉曼光谱频率移位是完全相符的,振动的红外光谱和拉曼光谱都是活性的,这与理论分析一致。二维垂直振动ν3,5的红外强度为0.206km/mol,接近于零,这与氨分子的激发特征有关。基态氨分子是C3V群,激发态则变为D3h群,基态转变成激发态引起对称性增加和能量升高,这种变化不是Jahn-Teller效应,而是电子态与振动态相互作用的结果。从理论上分析了这种电子态与振动态相互作用,理论分析与计算结果一致。 The ground state, infrared spectrum and Raman spectrum of the NH3 molecule are optimized using the density functional theory （DFT） B3P86. The excitation characteristics of NH3 molecule are studied by symmetry- adapted cluster/symmetry-adapted cluster-configuration interaction （SAC/SAC-CI） method with basis set D95＋＋. It is shown that the infrared spectral frequency and Raman spectral frequency of NH3 molecule for the ground displacement are completely consistent; vibratory infrared and Raman spectra are active, which are consistent with the theoretical data. A two-dimensional vertical vibration （V35） of infrared intensity is 0. 206 km/mol, almost zero, which is related to the excitation characteristics of NH3 molecules. The C3v group becomes D3h group when NH3 molecules are excited from the ground state. This change causes the increases of symmetry and energy. This kind of change doesn＇t result in Jahn-Teller effect, but results in the electronic state and dynamic interaction. The electronic state and dynamic interaction are analysed theoretically. It is found that the theoretical analysis is in agreement with the calculated results.

作者毛华平杨兰蓉舒纯军李鹏朱正和

机构地区重庆三峡学院化学与环境工程学院四川大学原子与分子物理研究所

出处《光学学报》 EI CAS CSCD 北大核心 2014年第3期33-37,共5页 Acta Optica Sinica

基金国家自然科学基金(21170505)

关键词原子与分子物理学氨分子激发特征红外光谱拉曼光谱 atomic and molecular physics NH molecular excitation characteristics infrared spectrum Ramanspectrum

分类号 O561 [理学—原子与分子物理]

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1Zhang Xiaojian, Chen Cao, Lin Pengfei, et al: Emergency drinking water treatment during source water pollution accidents in China: origin analysis, framework and technologies [ J ]. Environmental Science 8& Technology, 2011, 45 (1); 161-167. 被引量：1
2M Esboui, C Jouvet, C Dedonder, et al: Excited-state dynamics of the 2-hydroxypyridine ammonia complex [J]. J Phys Chem A, 2010, 114(9): 3060-3066. 被引量：1
3Geng Qijin, Guo Qingjie, Cao Changqing, et al: Alternate cycles process for municipal WWTPs upgrading: ready for widespread application? [J]. Industrial &- Engineering Chemistry Research, 2008, 47(13): 4363-4368. 被引量：1
4A Bankura, A Chandra. A first principles molecular dynamics study of the solvation structure and migration kinetics of an excess proton and a hydroxide ion in binary water-ammonia mixtures[J]. J ChemPhys, 2012, 136(11): 114509. 被引量：1
5M N Slipchenko, B G Sartakov, A F Vilesov. Evolution of the vibrational spectrum of ammonia from single molecule to bulk [J]. J Chem Phys, 2008, 128(13): 134509. 被引量：1
6S Pratihar, A Chandra. A first principles molecular dynamics study of lithium atom solvation in binary liquid mixture of water and ammonia: structural, electronic, and dynamical properties [J]. J ChemPhys, 2011, 134(2): 024519. 被引量：1
7Li Shutao, Liu Houxiang, Han Jingcheng, et al: Dynamics analyses of NHa multiphoton ionization and fragmentation [J]. Acta Optiea Sinica, 1987, 7(12) : 1082-1087. 被引量：1
8M L Hause, Y H Yoon, F F Crim. Vibrationally mediated photodissociation of ammonia: the influence of N-H stretching vibrations on passage through conical intersections [J]. J Chem Phys, 2006, 125(17): 174309. 被引量：1
9A D Becke. Density-functional thermocbemistry. III. the role of exact exchange [J]. J Chem Phys, 1993, 98(7): 5648-5652. 被引量：1
10J P Perdew. Density-functional approximation for the correlation energy of the inhomogeneous electron gas[J]. Phys Rev B, 1986, 33(12): 8822-8824. 被引量：1

1邹建成.映射芽关于群H的有限决定性[J].贵州工学院学报,1992,21(2):101-106.
2赵倩,黄杰,蒋刚.SAC/SAC-CI方法研究LiH基态(X^1∑^+)以及A^1∑^+、B^1∏激发态结构与性质(英文)[J].原子与分子物理学报,2007,24(3):533-536.
3王学理.权为任意正实数的Poincaré级数[J].科学通报,1993,38(11):972-974.
4赵倩,黄杰,蒋刚.SAC/SAC-CI方法计算Li_2分子X^1Σ_g^+,A^1Σ_u^+,B^1Π_u,a^3Σ_u^+以及b^3Π_u态结构与势能函数(英文)[J].西南大学学报（自然科学版）,2011,33(7):36-40.
5朱遵略,马恒,孙金锋.BH分子势能函数研究(英文)[J].原子与分子物理学报,2006,23(6):1092-1096. 被引量：11
6杨云青,王蜀霞,胡慧君,饶早英,牛君杰.磁场对单壁碳纳米管电子结构的影响[J].纳米科技,2008,5(1):2-5. 被引量：3
7周心一,孙进才.有限长薄壁弹性圆柱的径长耦合振动[J].声学学报,1996,21(3):224-230. 被引量：5
8谢安东,周玲玲,王珍吾.H_2分子X1Σ_g^+,B^1Σ_u^+和C^1Π_u态的势能函数[J].井冈山大学学报（自然科学版）,2007,28(3):13-16.
9张仁和,苏晓星,李风华.Improvement of Low-Frequency Acoustic Spatial Correlation by Frequency-Shift Compensation[J].Chinese Physics Letters,2006,23(7):1838-1841. 被引量：18

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氨分子的激发特征和电子态与振动态相互作用

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