PuH_2分子激发态的外场效应  被引量：6

作　　者：谢安东[1] 蒙大桥[2] 罗德礼[2] 马美仲[1] 朱正和[1] 

机构地区：[1]四川大学原子与分子物理研究所 [2]中国工程物理研究院表面物理与化学国家重点实验室,绵阳621900

出　　处：《原子与分子物理学报》2007年第2期387-392,共6页Journal of Atomic and Molecular Physics

基　　金：表面物理与化学国家重点实验室(04H683);国家自然科学基金(10376022);江西省教育厅科技项目(2007326);江西省科技厅工业攻关项目(2006212)

摘　　要：采用密度泛函（DFT）方法B3IYP／Gen，在Pu为SDD基组、H为6-311＋＋G＊＊基组水平上优化得到了分子轴方向不同电偶极场（-0．005～0．005a．u．）作用下，二氢化钚的基态电子状态、几何结构和分子总能量．在优化构型下用同样的基组采用含时密度泛函（TDDFT）方法（TD-B3LYP）研究了同样外电场条件下对二氢化钚的激发能、振子强度、自旋污染和Pu原子正电荷的影响．计算结果表明，分子几何构型与电场大小和方向呈现较强的依赖，H—Pu—H的角度线性减少，分子总能量线性减少；自旋污染随电场增加线性增加；Pu原子正电荷随电场增加而线性减小；激发能随电场强度增加而减小。且对电场方向的依赖呈现近似对称性，满足Grozema关系．电场对振子强度的影响比较复杂，但仍满足跃迁选择定则．The ground states of plutonium dihydride under different electric fields ranging from- 0. 005 to 0. 005 a. u. have been optimized using density functional theory DFT/B3LYP with SDD for Pu and 6-311 ＋ ＋ G ＊ ＊ for H. The excitation energies,oscillator strengths,spin pollution,and plutonium atom charges have been calculated under the same electric fields employing the time-dependent DFT method. The results show that the electronic state, total energy, molecular geometry, excitation energy, spin pollution, and plutonium atom charges are strongly dependent on the field strength of applied electric field. As the electric field changes from - 0. 005 to 0. 005 a. u., the bond length of Pu-H increases whereas the bond angle of H-Pu-H decreases because of the charge transfer induced by the applied electric fidd. The spin pollution of the ground state increases linearly with the applied field strength. The total energy and plutonium atom charges of the ground state decreases linearly with the applied field strength. The dependence of the calculated excitation energies on the applied electric field strength is fitting well to the relationship proposed by Grozema. The excitation energies of the first five excited states of plutonium dihydride decrease as the applied electric field increases because the energy gap between the HOMO and LUMO become close with the field, which shows that the molecule is easy to be excited under electric field and hence can be easily dissociated.

关 键 词：二氢化钚 激发态 电偶极场 TD-DFT 

分 类 号：O561.1[理学—原子与分子物理]