E. Toth scite author profile

We develop a computationally tractable method for calculating correlation functions of the finite temperature trapped Bose gas that includes the effects of s-wave interactions. Our approach uses a classical field method to model the low energy modes and treats the high energy modes using a Hartree-Fock description. We present results of first and second order correlation functions, in position and momentum space, for an experimentally realistic system in the temperature range of 0.6Tc to 1.0Tc. We also characterize the spatial coherence length of the system. Our theory should be applicable in the critical region where experiments are now able to measure first and second order correlations.

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Publisher's Note: Theory of correlations between ultracold bosons released from an optical lattice [Phys. Rev. A78, 013627 (2008)]

Toth¹,

Rey²,

Blakie³

2008

Phys. Rev. A

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Theory of correlations between ultracold bosons released from an optical lattice

Toth

Rey²,

Blakie

2008

Phys. Rev. A

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In this paper we develop a theoretical description of the correlations between ultra-cold bosons after free expansion from confinement in an optical lattice. We consider the system evolution during expansion and give criteria for a far field regime. We develop expressions for first and second order two-point correlations based on a variety of commonly used approximations to the many-body state of the system including Bogoliubov, meanfield decoupling, and particle-hole perturbative solution about the perfect Mott-insulator state. Using these approaches we examine the effects of quantum depletion and pairing on the system correlations. Comparison with the directly calculated correlation functions is used to justify a Gaussian form of our theory from which we develop a general three-dimensional formalism for inhomogeneous lattice systems suitable for numerical calculations of realistic experimental regimes.

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E. Toth

Two-point correlations of a trapped interacting Bose gas at finite temperature

Publisher's Note: Theory of correlations between ultracold bosons released from an optical lattice [Phys. Rev. A78, 013627 (2008)]

Theory of correlations between ultracold bosons released from an optical lattice

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