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Siegert State Approach to Quantum Defect Theory

Published 26 Jul 2016 in physics.atom-ph and nucl-th | (1607.07649v1)

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 $1- R_{nn}L_n = 0$, relating R- matrix element $R_{nn}$ to decay channel logarithmic derivative $L_n$. Extension of Siegert state equation to multichannel system results into replacement of channel R- matrix element $R_{nn}$ by its reduced counterpart ${\cal R}{nn}$. One proves the Siegert state is a pole, $(1 - {\cal R}{nn} L_{n}){-1}$, of multichannel collision matrix. The Siegert equation $1 - {\cal R}{nn} L{n} = 0$, ($n$ - 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.

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