On bound state computations in three- and four-electron atomic systems

Abstract

A variational approach is developed for bound state calculations in three- and four-electron atomic systems. This approach can be applied to determine, in principle, an arbitrary bound state in three- and four-electron ions and atoms. Our variational wave functions are constructed from four- and five-body gaussoids which depend upon the six (r12, r13, r14, r23, r24, r34) and ten (r12, r13, r14, r15, r23, r24, r25, r34, r35 and r45) relative coordinates, respectively. The approach allows one to operate with the different number of electron spin functions. In particular, the trial wave functions for the 1S-states in four-electron atomic systems include the two independent spin functions 1 = α β α β + β α β α - β α α β - α β β α and 2 = 2 α α β β + 2 β β α α - β α α β - α β β α - β α β α - α β α β. We also discuss the construction of variational wave functions for the excited 23S-states in four-electron atomic systems.