Regge resonances in low-energy electron elastic cross sections for Ge, Sn and Pb atoms: manifestations of stable excited anions

(2) School of Mathematics; Atlanta; A.Z. Msezane (1); Belfast; Centre for Theoretical Studies of Physical Systems; Clark Atlanta University; D. Sokolovski (2) ((1)Department of Physics; Georgia; Physics; Queen's University of Belfast

arxiv: 0909.3067 · v2 · submitted 2009-09-16 · ⚛️ physics.atom-ph

Regge resonances in low-energy electron elastic cross sections for Ge, Sn and Pb atoms: manifestations of stable excited anions

A.Z. Msezane (1) , Z. Felfli (1) , D. Sokolovski (2) ((1)Department of Physics , Centre for Theoretical Studies of Physical Systems , Clark Atlanta University , Atlanta , Georgia , USA

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(2) School of Mathematics Physics Queen's University of Belfast Belfast UK)

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classification ⚛️ physics.atom-ph

keywords excitedanionscrosselasticsectionsstableatomsbinding

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Low-energy E < 2 eV electron elastic collisions with Ge, Sn and Pb atoms yield stable excited Ge-, Sn- and Pb- anions. The recent Regge-pole methodology is used with Thomas-Fermi type potential incorporating the crucial core-polarization interaction to calculate elastic total and Mulholland partial cross sections. For excited Ge- and Sn- anions the extracted binding energies from the unique characteristic sharp Regge resonances manifesting stable excited states formed during the collisions agree excellently with experimental values; for Pb- the prediction requires experimental verification. The calculated differential cross sections also yield the binding energies.

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Regge resonances in low-energy electron elastic cross sections for Ge, Sn and Pb atoms: manifestations of stable excited anions

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