Scattering of atomic dark-bright solitons from narrow impurities

A Álvarez, J Cuevas, FR Romero, C Hamner, JJ Chang, P Engels, PG Kevrekidis and DJ Frantzeskakis (pdf copy 899 kb.)

Abstract:

In this work, we study the collision of an atomic dark-bright soliton, in a two-component Bose- Einstein condensate, with a Gaussian barrier or well. First, we present the results of an experiment, illustrating the classical particle phenomenology (transmission or reflection) in the case of an equal barrier or well in both components. Then, motivated by the experimental observations, we perform systematic simulations considering not only the case of equal heights, but also the considerably more complex setting, where the potential affects only one of the two components. We systematically classify the ensuing cases within a two-parameter diagram of barrier amplitudes in the two components, and provide intuitive explanations for the resulting observations, as well as of their variations as the size of the barrier changes.

Journal of Physics B: Atomic, Molecular and Optical Physics 46 (2013) 065302 doi: 10.1088/0953-4075/46/6/065302 Chosen by IOP Select and for a LabTalk View