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引用次数: 0
摘要
我们从理论上研究了吸引力和排斥力费米极子以及分子在三维有限动量下的寿命。为此,我们开发了一种技术,利用函数重正化群内的精确分析延续计算整个复频平面的格林函数。这种方法提高了数值稳定性,降低了计算成本,从而获得了以前无法获得的低洼激发态的动量相关准粒子特性。传统方法(如非自洽 T 矩阵近似法)无法确定这些寿命,而我们却能在吸引极子、排斥极子和分子的不同相互作用强度下找到与动量相关的寿命。在弱耦合条件下,我们的结果证实了有效费米液体理论关于吸引力极子衰变的预测,我们还证明了费米液体般的行为一直延伸到强耦合制度,在强耦合制度下,吸引力极子和分子的衰变宽度表现出 p4 的动量缩放。我们的研究结果为费米极子问题中与动量相关的准粒子特性提供了一个有趣的视角,这些特性可以通过拉曼传递和拉姆齐干涉测量等技术进行测量。
Momentum-dependent quasiparticle properties of the Fermi polaron from the functional renormalization group
We study theoretically the lifetimes of attractive and repulsive Fermi polarons, as well as the molecule at finite momentum in three dimensions. To this end, we develop a technique that allows for the computation of Green's functions in the whole complex frequency plane using exact analytical continuation within the functional renormalization group. The improved numerical stability and reduced computational cost of this method yield access to previously inaccessible momentum-dependent quasiparticle properties of low-lying excited states. While conventional approaches like the non-self-consistent -matrix approximation method cannot determine these lifetimes, we are able to find the momentum-dependent lifetime at different interaction strengths of both the attractive and repulsive polaron as well as the molecule. At weak coupling our results confirm predictions made from effective Fermi liquid theory regarding the decay of the attractive polaron, and we demonstrate that Fermi liquidlike behavior extends far into the strong-coupling regime where the attractive polaron and molecule exhibit a momentum scaling in their decay widths. Our results offer an intriguing insight into the momentum-dependent quasiparticle properties of the Fermi polaron problem, which can be measured using techniques such as Raman transfer and Ramsey interferometry.
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Physical Review A (PRA) publishes important developments in the rapidly evolving areas of atomic, molecular, and optical (AMO) physics, quantum information, and related fundamental concepts.
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