Ab initio and perturbative calculations of the electric susceptibility of atomic hydrogen

The magnetic susccptibdlty of hydrogen f!uorldc -s c.llculdtcd with four dlffcrcnt basis sets ofg:nugc invariant atomic orbit& (GIAO'F). Tbc Rooth.ran equations arc colvcd for various vcllucs of the magnetic field strcn,gtb and the susccptlbdrty is dcduccd by .I numerical differcnti.ltIon of the cnc

## Abstract Starting from a knowledge of approximate wave functions of the isolated molecules (or atoms) A and B, a method is proposed to build up a zeroth‐order ground state and excited configurations for the complex AB in which the molecular orbitals keep their local significance. The standard Ra

Donor and acceptor levels of atomic hydrogen centers in germanium are calculated by density functionalpseudopotential modeling, using large hydrogen-terminated Ge clusters. We found that the neutral bond centered (BC) and anti-bonding configurations (AB) are energetically very close, with a slight (

## Abstract The interaction energy between two water molecules A and B is calculated by the method described in Paper I [1], previously applied for the interaction between two helium atoms (Paper II) [2]. This interaction energy is obtained as the difference between the energies of the complex (A +