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Based on the calculation results of pair correlation energy contributions of the various electron pairs in Na2 and H2NNH2 systems and the application of the scaling ionic partition scheme for symmetrical A2 type systems, the total correlation energies of Na2 and H2NNH2 have been reproduced by using this simple scheme. The two results show that the absolute deviations are within an acceptable range of error, however, in this way, more than 90% of computational work can be saved. The most attractive result in present paper is that, in these two molecules the coefficients c1 and c2 in the estimation equation can be obtained by the proportion of correlation energy of A^- to that of A^ singlet system. Therefore, it is believed that the proposed ionic partition scheme for symmetrical A2 molecules would be very useful to estimate the correlation energies of large symmetrical molecules. 相似文献
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IntroductionAsawell knownfact ,thecalculationofelectroncor relationenergyisabottleneckprobleminthecalculationsofmolecularpropertiesandchemicalreactionsinquantumchemistry .1Ithasattractedgreatattentionoftheoreticalchemists.NumerousdifferentmethodshavebeenusedtocalculatethecorrelationenergysinceL wdin2 givethedef initionofelectroncorrelationin 195 9.In 196 0s ,Sinanoˇglu3,4 definedtheexactelectronpaircorrelationen ergyanddevelopedmany electrontheoryofatomsandmoleculesinwhichthetotalcorrelation… 相似文献
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用从头算波函数(UHF或UDFT波函数)代替ZILSH方法中的半经验波函数得到了ABLSH方法,接着用该方法研究了两个典型氧桥三核铁髥配合物[Fe3O(O2CCH2OC6H5)6(3H2O)]和[Fe3O(TIEO)2(O2CPh)2Cl3]的局域自旋和磁性质。通过计算得到的局域自旋结果和前人的具有可比性,同时所得的磁交换耦合常数和实验值很吻合。该方法可作为研究海森堡型磁性系统(HM)的新工具。 相似文献
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众所周知,电子相关能问题是量子化学的瓶颈问题‘’‘.为了更深人地了解和认识电子相关能的轨道本质,建立P。St-HF理论校正模型,JS等”-”应用电子对内对间电子相关模式,指出国际著名量子 相似文献
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对标题异构化体系,在Gaussian 94程序的高水平MP4/6-311G**下,进行了全参数几何优化、能量、频率等计算,得到了它们电子结构的相对稳定性.同时用统计热力学计算了Rg-HCl、Rg-ClH(Rg=Ne,Ar)等异构体的热力学性质及它们的相互转化的平衡常数等.结果表明:不同构型的稳定性是随实验温度变化的,两种构型也可在某一温度下共存.这一结果不同于仅通过电子结构能所作出的某异构体较稳定的简单推断,而是提醒人们对一些弱键体系,要考虑温度与熵效应的重要性. 相似文献
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The calculation results of electron correlation energies of KF and (KF)2 were reported. The transferability of 1s^2 K , 1s^2 F and the inner core correlation effects of K and F in both K, K^+, KF and F, F^-, KF systems were investigated respectively. The correlation energy contributions of K and F component to KF system were calculated. By applying the simple estimation scheme to the calculation of the correlation energy of the strong ionic compound KF and (KF)2, it was shown that such a powerful scheme could not only reach the chemical accuracy but also need little computational work. 相似文献