Siegert State Approach to Quantum Defect Theory
Atomic Physics
2016-07-27 v1 Nuclear Theory
Abstract
The Siegert states are approached in framework of Bloch-Lane-Robson formalism for quantum collisions. The Siegert state is not described by a pole of Wigner R- matrix but rather by the equation , relating R- matrix element to decay channel logarithmic derivative . Extension of Siegert state equation to multichannel system results into replacement of channel R- matrix element by its reduced counterpart . One proves the Siegert state is a pole, , of multichannel collision matrix. The Siegert equation , ( - Rydberg channel), implies basic results of Quantum Defect Theory as Seaton's theorem, complex quantum defect, channel resonances and threshold continuity of averaged multichannel collision matrix elements.
Cite
@article{arxiv.1607.07649,
title = {Siegert State Approach to Quantum Defect Theory},
author = {C. Hategan and R. A. Ionescu and H. H. Wolter},
journal= {arXiv preprint arXiv:1607.07649},
year = {2016}
}