S-wave scattering of a polarizable atom by an absorbing nanowire

Martin Fink, Andrés Naranjo, Florian Arnecke, Johannes Eiglsperger, Harald Friedrich, Javier Madroñero, Patrick Raab, Andreas Wirzba

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Abstract

We study the scattering of a polarizable atom by a conducting cylindrical wire with incoming boundary conditions, that is, total absorption, near the surface of the wire. Based on the explicit expression given recently for the nonretarded atom-wire potential, we formulate a hierarchy of approximations that enables the numerical determination of this potential to any desired accuracy as economically as possible. We calculate the complex s-wave scattering length for the effectively two-dimensional atom-wire scattering problem. The scattering length a depends on the radius R of the wire and a characteristic length β related to the polarizability of the atom via a simple scaling relation, a=R (β/R). The "scaled scattering length" a~ tends to unity in the thick-wire limit β/R→0, and it grows almost proportional to 1/R in the opposite thin-wire limit.

Original languageEnglish
Article number062714
JournalPhysical Review A
Volume81
Issue number6
DOIs
StatePublished - 28 Jun 2010

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