Radiative Transitions between the 4D105p2(3Pj)nl and 4D105s5p(3P1o)nl Autoionizing States of in Atom in Collisions of Slow Electrons with in+ Ions

Abstract

The radiative transitions between the 4d105p2(3P0,1,2)nl and 4d105s5p(3P1o)nl autoionizing states of an indium atom that represent dielectronic satellites of the 4d105p2 3P0 4d105s5p 3P1 (λ =171.7 nm), 4d105p2 3P1 4d105s5p 3P1 (λ =166.7 nm), and 4d105p2 3P2 4d105s5p 3P1 (λ =160.7 nm) spectral lines of an In+ ion have been observed for the first time. The energy dependences of the effective excitation cross sections of dielectronic satellites, as well as near-threshold regions of these spectral lines, were investigated in the range of electron energies 9 15 eV with the help of the spectroscopic method using crossed beams of electrons and In+ ions. The absolute excitation cross sections of dielectronic satellites amount to (0.7 2)× 10-16 cm2 and are of the same order of magnitude as the effective excitation cross sections of the corresponding ionic lines. It is found that a considerable increase of the probability of radiation decay of the 4d105p2(3P0,1,2)nl autoionizing states of the In atom is related to strong relativistic and correlation effects, in particular to the configuration interaction of the 5p2nl levels both with one another and with the levels of the 5s5dnl and 4d95s25p2 configurations.