We use density functional theory to examine the stability of defects in p-Z
nSe that an formed by a transition of the nitrogen acceptor to the intersti
tial site. We find that the threefold positive complex of the interstitial
nitrogen with the remaining vacancy is considerably more stable than the ni
trogen acceptor. The formation of the complex is, however, limited by a kin
etic barrier of 1.8 eV for the site transition, and the fact that the charg
e of the defect must change. The energetic position of the defect in the en
ergy gap is about 2 eV above the valence band edge. This is in agreement wi
th optical degradation experiments which show the formation of a deep defec
t in the p-doped waveguide with a transition energy of about 2.1 eV and the
diffusion of a positively charged species. [S0163-1829(99)52548-4].