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四川师范大学学报(自然科学版) 2013

用新公式精确研究碱金属分子电子态的离解能

, PP. 420-423

舒纯军,孙卫国,罗映祥,余先伦

Keywords: 代数方法,碱金属,异核双原子分子,离解能

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Abstract:

使用W.G.Sun等(J.Mol.Spectrosc.,2002,21593-105.)提出的基于微扰理论的代数方法(AM),研究了碱金属异核双原子分子NaLi的A1Σ+,NaK的X1Σ+、c3Σ+,KRb的21Π等4个电子态的离解能;然后使用最近提出的新公式计算了这些电子态的离解能,并分别与实验值进行了比较.理论计算结果表明使用新公式得到的分子离解能与实验值非常吻合.对那些还没有离解能实验数据的电子态,该公式提供了一种推测其离解能的新方法.

References

[1]	Dunham J L.The energy levels of a rotating vibrator\[J\]. Phys Rev,1932,41:721-731.
[2]	Sun W G, Ren W Y, Hou S L, et al. Studies on full vibrational spectra and dissociation energies of some diatomic molecular electronic states using algebraic approaches\[J\]. Mol Phys,2005,103:2335-2345.
[3]	Fan Q C, Sun W G. Dissociation energies of diatomic molecules\[J\]. Chin Phys Lett,2008,25(6):2012-2015.
[4]	Sun W G, Fan Q C, Ren W Y. Accurate studies on dissociation energies of diatomic molecules\[J\]. Sci Chin Ser G,2007,50(5):611-621.
[5]	LeRoy R J, Bernstein R B. Dissociation energies and long-range potentials of diatomic molecules from vibrational spacings: The halogens\[J\]. J Mol Spectrosc,1971,37:109-130.
[6]	徐亦庄. 分子光谱理论\[M\]. 北京:清华大学出版社,1988:159.
[7]	侯世林. 双原子分子振转能谱和离解能的理论研究\[D\]. 成都:四川大学,2003:11.
[8]	Li D, Xie F, Li L, et al. New observation of the 6Li7Li 33Σ+g ,13Δg , and 23Πg states and molecular constants with all 6Li2,7Li2, and 6Li7 Li data\[J\]. J Mol Spectrosc,2007,246:180-186.
[9]	Liu X Y, Sun W G, Fan Q C. Accurate studies of dissociation energies and vibrational energies on alkali metals\[J\]. Chin Phys,2008,B17(6):2048-2061.
[10]	Stevens W J, Konowalow D D, Ratcliff L B. Electronic structure and spectra of the lowest five 1Σ+ and 3Σ+ states, and lowest three 1Π,3Π,1Δ, and 3Δ states of NaK\[J\]. J Chem Phys,1984,80(3):1215-1224.
[11]	孙卫国,刘秀英,王宇杰,等. 理论离实验有多远?——用代数方法精确研究双原子分子的完全振动能谱和离解能\[J\]. 物理学进展,2007,27:151-200.
[12]	Kasahara S, Fujiwara C, Okada N, et al. Doppler-free optical-optical double resonance polarization spectroscopy of the 39K85Rb 11Π and 21Π states\[J\]. J Chem Phys,1999,111(19): 8857-8866.
[13]	Herzeberg G. Molecular Spectra and Molecular Structure (I), Spectra of Diatomic Molecules\[M\]. New York:Van Nostrand,1953:1,92,307-393.
[14]	徐克尊. 高等原子分子物理学\[M\]. 北京:科学出版社,2000:5.
[15]	物理学评述委员会. 原子、分子和光学\[M\]. 伍烈尧,陈凌冰,译. 北京:科学出版社,1993:141.
[16]	列文 R D, 伯恩斯坦 R B. 分子反应动力学\[M\]. 陶愉生,译. 北京:科学出版社,1986:2.
[17]	Morrison M A, Sun W G. Computational Methods for Electro-Molecule Collisions\[M\]. New York:Plenum,1995:131.
[18]	Partridge H, Bauschlicher C W, Siegbahn P E M. Theoretical study of the lithium dimer and its anion\[J\]. Chem Phys Lett,1983,97(2):198-203.
[19]	Fellows C E. The NaLi A1Σ+ electronic state: First high resolution spectroscopic study\[J\]. J Mol Spectrosc,1989,136:369-375.
[20]	Ferber R, Pazyuk E A, Stolyarov A V, et al. The c3Σ +,b3Π, and a3Σ+ states of NaK revisited\[J\]. J Chem Phys,2000,112(13):5740-5750.
[21]	Sun W G, Hou S L, Feng H, et al. Studies on the vibrational and rovibrational energies and vibrational force constants of diatomic molecular states using algebraic and variational methods\[J\]. J Mol Spectrosc,2002,215:93-105.
[22]	Sun W G, Feng H. An energy-consistent method for potential energy curves of diatomic molecules\[J\]. J Phys: Atom Mol Phys,1999,B32:5109-5112.

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