K X-ray transition energies for first row atoms and ions

By a least-squares method, an approximation of x-ray transition energies of the main transitions of the Kand L-series was obtained. As investigations show it seems advantageous to split the Z -region up to Z = 92 into two ranges. By using a seven-parameter equation the accuracy obtained lies in most

Relativistic calculations for K x-ray transition energies and emission rates for titanium atoms with various electron conÐgurations were performed with the Dirac-Fock method. The theoretical values were compared with the experimentally measured K x-ray spectra for compounds of titanium and the elect

## Chemical shifts of K-shell electron binding energies for first-row atoms in molecules due to '.hcir different chemical environments have been obtained from double-zeta basis SCF-MO calculated ground state 1s orbital energies using Koopman's theorem. This computational procedure is valid because

Slater type orbital (STO) basis sets for the atoms Sc-Zn have been derived using a technique based on the distance between subspaces. The accuracy for several properties of these basis sets has been tested. Basis sets studied are of both single-and double-zeta sizes, although this technique can be g