Dressed-molecules in resonantly-interacting ultracold atomic Fermi gases

Netherlands Journal of Sea Research Pub Date : 2006-03-09 DOI:10.1103/PhysRevA.75.023612

G. M. Falco, H. Stoof

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引用次数: 7

Abstract

We present a detailed analysis of the two-channel atom-molecule effective Hamiltonian for an ultracold two-component homogeneous Fermi gas interacting near a Feshbach resonance. We particularly focus on the two-body and many-body properties of the dressed molecules in such a gas. An exact result for the many-body T matrix of the two-channel theory is derived by both considering coupled vertex equations and functionalintegral methods. Making use of this result allows us to incorporate exactly into the many-body theory the two-body physics of the Feshbach scattering by means of simple analytical formulas without any fitting parameters. New interesting many-body effects are discussed in the case of narrow resonances. We give also a description of the BEC-BCS crossover above and below TC. The effects of different approximations for the self-energy of the dressed molecules are discussed. The single-channel results are derived as a special limit for broad resonances. Moreover, through an analytic analysis of the BEC limit, the relation between the composite boson of the single-channel model and the dressed-molecule of the two-channel model is established.

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共振相互作用的超冷原子费米气体中的衣著分子

我们给出了在费什巴赫共振附近相互作用的超冷双组分均匀费米气体的双通道原子-分子有效哈密顿量的详细分析。我们特别关注这种气体中被修饰的分子的二体和多体性质。通过考虑耦合顶点方程和泛函积分方法，得到了双通道理论中多体T矩阵的精确解。利用这一结果，我们可以用简单的解析公式，不需要任何拟合参数，将费什巴赫散射的二体物理精确地纳入多体理论。在窄共振的情况下讨论了新的有趣的多体效应。我们还给出了在TC之上和之下的BEC-BCS交叉的描述。讨论了不同近似对修饰分子自能的影响。单通道结果是作为宽共振的特殊限制推导出来的。此外，通过对BEC极限的解析分析，建立了单通道模型的复合玻色子与双通道模型的修饰分子之间的关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Netherlands Journal of Sea Research

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