Electric dipole polarizability of the hydrogen molecule by many-body perturbation theory

We rely on a finite-field approach to calculate the static dipole ((u) and quadrupole ( C) polarizability and the first (/3) and second ( y) dipole hyperpolarizability of methane. Our best, CCSD( T) values for LY, /II and the mean value of y and C, obtained at&=2.052 aowitha (lls7p4d2f/6s2pld)[6s4p4

The ground state as well as some low-lying excited states of the Ne q molecule are 2 calculated by means of the third-order multireference many-body perturbation theory with the ''full'' eight-orbital valence space using DZP and polarized valence TZ basis sets. The problem encountered with a large n

The electric dipole moment (p,), dipole polarizability (CQ) and first (Balk) and second (v,,& dipole hyperpolarizability of ammonia were obtained from finite-field self-consistent-field (SCF) and complete fourth-order many-body perturbation theory (MP4) calculations. With z as the C, axis, the follo

The rotational constants of HSSi+ and HSiS+ are calculated by fourth-order many-body perturbation theory utilizing a doublezeta plus polarization basis set. The results agree with a previous CI estimate that HSSi+ (bent) is more stable than HSW (linear) and frequencies of rotational lines are predic