Abstract
Second-order and fourth-order intensity-dependent corrections to the energy levels of the hydrogen atom are calculated. By comparing the results obtained for these two orders and for various values of the principal quantum number, it is seen that, at a given intensity, the second-order correction becomes more and more questionable as one approaches the ionization limit. It is shown how the divergences, which appear in calculating the matrix elements of the shift operator in a discrete basis of continuum functions, can be avoided by performing the computation in the velocity gauge. The relevant second-order numerical results indicate serious modifications of the continuum spectrum. Intrinsic limitations of the second-order calculations are discussed.
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