采用多参考组态相互作用方法研究AsN( X1 + )自由基的光谱常数与分子常数

王杰敏; 孙金锋

doi:10.7498/aps.60.123103

摘要

采用内收缩多参考组态相互作用方法和相关一致基对AsN(X 1 +)自由基的势能曲线进行了研究. 计算过程中对两原子分别采用不同基组,As原子为aug-cc-pV5Z基组,N原子为aug-cc-pV6Z基组. 通过最小二乘法将势能曲线拟合成Murrell-Sorbie函数,并进一步计算得到AsN(X 1 +)自由基的光谱常数.光谱常数分别为De=4.97 eV,Re=0.16259 nm, e=1061.14 cm-1, exe=5.4715 cm-1, Be=0.53919 cm-1和e=0.003409 cm-1. 通过比较发现它们与实验值符合非常好. 利用得到的解析势能函数, 求解双原子分子核运动的径向Schrdinger方程, 找到了J=0时该自由基存在的全部67个振动态. 对于每一振动态, 分别计算了振动能级、经典转折点、惯性转动常数和离心畸变常数. 与实验结果比较后发现,计算结果达到了很高的计算精度.

关键词:

AsN /
势能曲线 /
光谱常数 /
分子常数

Abstract

The potential energy curve (PEC) of the AsN(X1 +) radical is investigated by the highly accurate valence internally contracted multireference configuration interaction method in combination with the correlation-consistent basis sets, aug-cc-pV5Z for As and aug-cc-pV6Z for N atom. The PEC is fitted to the Murrell-Sorbie function, which is used to accurately derive the spectroscopic parameters. The parameters De, Re, e, exe, e and Be are obtained to be 4.97 eV, 0.16259 nm, 1061.14, 5.4715, 0.53919, 0.003409 cm-1 respectively; which accord well with the available measurements. With the obtained PEC of AsN(X1 +), a total of 67 vibrational states are predicted when J=0 for the first time by numerically solving the radical Schrdinger equation of nuclear motion. For each vibrational state, the vibrational level, the classical turning points, the inertial rotation and the centrifugal distortion constants are completely reported for the first time.

Keywords:

作者及机构信息

1.
洛阳师范学院物理与电子信息学院,洛阳 471022;河南师范大学物理与信息工程学院,新乡 453007

基金项目: 国家自然科学基金(批准号:10874064)和河南省科技发展计划(批准号:092300410189)资助的课题.

Authors and contacts

1.
College of Physics and Electronic Information, Luoyang Normal College, Luoyang 471022, China;College of Physics and Information Engineering, Henan Normal University, Xinxiang 453007, China

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施引文献

[1]	Spinks J W T 1934 Z. Phys. 88 511
[2]	D'Incan J, Fmelat B 1967 C. R. Acad. Sci. B 264 1261
[3]
[4]
[5]	D'Incan J, Fmelat B 1968 C. R. Acad. Sci. B 267 796
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[8]
[9]	Dixit M N, Krishnamurty G, Narasimham N A 1970 Proc. Indian Acad. Sci A 71 23
[10]
[11]	Fmelat B, Jones W E 1974 J. Mol. Spectrosc. 49 388
[12]
[13]	Perdigon P, Fmelat B 1982 J. Phys. B 15 2165
[14]
[15]	Saraswathy P, Krishnamurty G 1988 J. Phys. 31 493
[16]
[17]	Henshaw T L, Mcelwee D, Stedman D H, Coombe R D 1988 J. Phys. Chem. 92 4606
[18]
[19]	Kerr J A, Stocker D W 1999 Handbook of Chemistry and Physics (Boca Raton: Chemical Rubber Corp.)
[20]	Huber K P, Herzberg G 1979 Molecular Spectra and Molecular Structure (Vol. 4) (New York: Van Nostrand Reinhold)
[21]
[22]
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[38]	Werner H J, Knowles P J, Lindh R, Manby F R, Schtz M, Celani P, Korona T, Mitrushenkov A, Rauhut G, Adler T B, Amos R D, Bernhardsson A, Berning A, Cooper D L, Deegan M J O, Dobbyn A J, Eckert F, Goll E, Hampel C, Hetzer G, Hrenar T, Knizia G, Kppl C, Liu Y, Lloyd A W, Mata R A, May A J, McNicholas S J, Meyer W, Mura M E, Nicklass A, Palmieri P, Pflger K, Pitzer R, Reiher M, Schumann U, Stoll H, Stone A J, Tarroni R, Thorsteinsson T, Wang M, Wolf A 2008 MOLPRO, Version 2008 MOLPRO (Birmingham: University of Stuttgart, University of Beirmingham)
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[44]
[45]	de Brouckre G 1999 J. Phys. B 32 5415
[46]	Woon D E, Dunning T H 1994 J. Chem. Phys. 101 8877
[47]
[48]	de Brouckre G, Feller D, Brion J 1994 J. Phys. B 27 1657
[49]
[50]
[51]	Wang J M, Sun J F, Shi D H 2010 Chin. Phys. B 19 113404
[52]	Bai F J, Yang C L, Qian Q, Zhang L 2009 Chin. Phys. B 18 549
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[57]	Shi D H, Zhang J P, Sun J F, Liu Y F, Zhu Z L 2009 Chin. Phys. B 18 3856
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[63]
[64]
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[66]	Zhu Z H, Yu H G 1997 Molecular Structure and Potential Energy Function (Beijing: Science Press)(in Chinese)[朱正和、俞华根 1997 分子结构与分子势能函数(北京:科学出版社)]
[67]

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