Contribution of the second-order Born approximation to the scattered intensity

By means of a D v and D B formalism for correction parameters, expressions were derived for higher-order Dunham coefficients, Y \* £J 04 , Y \* £J 12 , and Y \* £J 21 , in which contributions of the breakdown of the Born-Oppenheimer approximation were taken into account. Including Y \* £J 04 , Y \*

According to an approach recently proposed [5], this analysis includes the second-order approximation in order to obtain the deviation of the extended crack tip from the original direction. The dependence of the curvature on the crack path upon the inplane stress fields and the derivatives of the st

The cIastic and inelastic intensities for the scattering of eIectrons from H':(lso ) are ~om~uted~in the Eirst Born approximation by using both the exact Born-Oppenheimer wavefunction and an LCAO ii0 function of&ptimizcd minim2 basis $ quality. Evaluation of the coherent X-rr?y scattering factor by

It is shown that the idezs SimïIar to these behïnd the ordinary gcometric approximation can be efficiently used to speed up the convergente of the coupled Hartree-Fock iterative procedure in the density matrix formalïsm. The formulation of the geometrïc approximation in the case of multiple perturba