Momentum-Transfer to and Elementary-Excitations of a Bose-Einstein Condensate by a Time-Dependent Optical Potential
Abstract
We present results of calculations on Bose-Einstein condensed 87Rb atoms subjected to a moving standing-wave light-potential of the form VL(z,t) = V0(t) (q z-ω t). We calculate the mean-field dynamics (the order paramter) of the condensate and determine the resulting condensate momentum in the z direction, Pz(q,ω,V0,tp), where V0 is the peak optical potential strength and tp is the pulse duration. Although the local density approximation for the Bogoliubov excitation spectral distribution is a good approximation for very low optical intensities, long pulse duration and sufficiently large values of the wavevector q of the light-potential, for small q, short duration pulses, or for not-so-low intensities, the local density perturbative description of the excitation spectrum breaks down badly, as shown by our results.
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