Abstract
One-dimensional scattering problems are of wide physical interest and are encountered in many diverse applications. In this paper I establish some very general bounds for reflection and transmission coefficients for one-dimensional potential scattering. Equivalently, these results may be phrased as general bounds on the Bogolubov coefficients or statements about the transfer matrix. A similar analysis can be provided for the parametric change of frequency of a harmonic oscillator. A number of specific examples are discussed. In particular I provide a general proof that sharp step function potentials always scatter more effectively than the corresponding smoothed potentials. The analysis also serves to collect together and unify what would otherwise appear to be quite unrelated results.
- Received 12 May 1998
DOI:https://doi.org/10.1103/PhysRevA.59.427
©1999 American Physical Society