Exchange interaction and correlations radically change behaviour of a quantum particle in a classically forbidden region

Abstract

Exchange interaction strongly influences the long-range behaviour of localised electron orbitals and quantum tunneling amplitudes. It violates the oscillation theorem (creates extra nodes) and produces a power-law decay instead of the usual exponential decrease at large distances. For inner orbitals inside molecules decay is r-2, for macroscopic systems (kf r) r-, where kf is the Fermi momentum and =3 for 1D, =3.5 for 2D and =4 for 3D crystal. Correlation corrections do not change these conclusions. Slow decay increases the exchange interaction between localized spins and the under-barrier tunneling amplitude. The under-barrier transmission coefficients in solids (e.g. for point contacts) become temperature-dependent.