THE ROLES OF PAULI CORRELATIONS, CHANNEL COUPLINGS, AND SHAKE-OFF IN ION-INDUCED KLV AND K2LV MULTIPLE-VACANCY PRODUCTION Academic Article uri icon

abstract

  • Cross sections for target K-plus-L-shell multiple-vacancy production by ions can be inferred from experimental measurements of K X-ray and Auger satellite intensities. The theory of KnLv multiple-vacancy distributions has been generalized from the single-particle model (the statistically independent electron approximation) to the independent Fermi particle model. The Pauli correlations (electron exchange terms) are found to nearly cancel in many cases because of a tendency toward random phases. This results in the first quantal demonstration that the vacancy distribution is nearly binomial (but slightly narrower). Calculations have been generalized from the traditional first-order approximations to unitary approximations (first Magnus and coupled-channels) which correctly predict the saturation of the mean vacancy probability with increasing projectile charge. The recent availability of satellite and hypersatellite data for the same collision system makes possible the beginning of an investigation of the effects of increased removal energies and increased shaking in hypersatellites (K2Lv) as compared with satellites. We review our unified treatment of ion-plus-shaking induced amplitudes for L-vacancy production accompanying ion-generated K-holes. Calculations for C6+ +Ne satellite and hypersatellite vacancy distributions are presented. 1984.

published proceedings

  • NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS

author list (cited authors)

  • BECKER, R. L., FORD, A. L., & READING, J. F.

citation count

  • 8

complete list of authors

  • BECKER, RL||FORD, AL||READING, JF

publication date

  • July 1984