Excited electronic state calculations by the transcorrelated variational Monte Carlo method: Application to a helium atom

Umezawa N; Tsuneyuki S

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Excited electronic state calculations by the transcorrelated variational Monte Carlo method: Application to a helium atom

机译：互相关变分蒙特卡罗方法的激发电子态计算：在氦原子上的应用

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We have implemented the excited electronic state calculations for a helium atom by the transcorrelated variational Monte Carlo (TC-VMC) method. In this method, Jastrow-Slater-type wave function is efficiently optimized not only for the Jastrow factor but also for the Slater determinant. Since the formalism for the TC-VMC method is based on the variance minimization, excited states as well as the ground state calculations are feasible. It is found that both the first and the second excitation energies given by TC-VMC are much closer to the experimental data than those given by the variational Monte Carlo method with using the Hartree-Fock orbitals. The successful results in the TC-VMC method are considered to be due to the nodal optimization of the wave functions. (C) 2004 American Institute of Physics.

机译：我们已经通过互相关变分蒙特卡罗（TC-VMC）方法实现了氦原子的激发电子态计算。在这种方法中，不仅针对Jastrow因子而且针对Slater行列式有效地优化了Jastrow-Slater型波动函数。由于TC-VMC方法的形式主义基于方差最小化，因此激发态以及基态计算都是可行的。已经发现，与使用Hartree-Fock轨道的变分蒙特卡罗方法所给出的能量相比，TC-VMC所给出的第一和第二激励能量都更接近实验数据。 TC-VMC方法的成功结果被认为是由于波函数的节点优化。（C）2004年美国物理研究所。

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《The Journal of Chemical Physics》 |2004年第15期|共6页
作者
Umezawa N; Tsuneyuki S;
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正文语种 eng
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GROUND-STATE; WAVE-FUNCTIONS; CORRELATED ORBITALS; SYSTEMS; WAVEFUNCTIONS; VARIANCE; ENERGIES; EQUATION; GAS;

机译：基态;波函数;相关轨道;系统;波函数;方差;能量;方程;气体;

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1. Excited electronic state calculations by the transcorrelated variational Monte Carlo method: Application to a helium atom [J] . Umezawa N, Tsuneyuki S The Journal of Chemical Physics . 2004,第15期

机译：互相关变分蒙特卡罗方法的激发电子态计算：在氦原子上的应用
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Excited electronic state calculations by the transcorrelated variational Monte Carlo method: Application to a helium atom

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