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Paper detail

Ultra-Fast Converging Path-Integral Approach for Rotating Ideal Bose-Einstein Condensates

A recently developed efficient recursive approach for analytically calculating the short-time evolution of the one-particle propagator to extremely high orders is applied here for numerically studying the thermodynamical and dynamical properties of a rotating ideal Bose gas of $^{87}$Rb atoms in an anharmonic trap. At first, the one-particle energy spectrum of the system is obtained by diagonalizing the discretized short-time propagator. Using this, many-boson properties such as the condensation temperature, the ground-state occupancy, density profiles, and time-of-flight absorption pictures are calculated for varying rotation frequencies. The obtained results improve previous semiclassical calculations, in particular for smaller particle numbers. Furthermore, we find that typical time scales for a free expansion are increased by an order of magnitude for the delicate regime of both critical and overcritical rotation.

preprint2010arXivOpen access
Antun BalazIvana VidanovicAleksandar BogojevicAxel Pelster
cond-mat.stat-mechphysics.comp-phhep-thcond-mat.quant-gasquant-ph
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Antun BalazIvana VidanovicAleksandar BogojevicAxel Pelster

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