Effective-field-theory analysis of boson-trimer bond lengths to next-to-leading order

J. Qin, Jared Vanasse
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引用次数: 2

Abstract

Cold Helium atoms are a unique system where a single excited three-body Efimov state occurs, naturally, without the need for an external magnetic field. While three-body bound state energies of cold Helium atoms have previously been investigated, recent experimental techniques have allowed their structure to also be studied. The weak interaction between Helium atoms leads to a helium-helium (dimer) scattering length, $a$, much larger than the helium-helium effective range of interaction, $r$. This feature is exploited in a theory that systematically expands observables in powers of $r/a$, known as short range effective field theory (srEFT), which has been used successfully to investigate properties of cold atom systems. Using srEFT we investigate the average bond length of atoms in the three-body ground state and excited Efimov state of cold Helium atoms. At leading-order (next-to-leading order) in srEFT, we find the average bond length of the $^4$He trimer ground state is 8.35(33) A (10.29(2) A) and the average bond length of the excited $^4$He trimer Efimov state is 103(4) A (105.3(2) A).
玻色子三聚体键长至次领先阶的有效场论分析
冷氦原子是一种独特的系统,在这种系统中,一个单一的三体叶菲莫夫态自然地发生,而不需要外部磁场。虽然冷氦原子的三体束缚态能量以前已经被研究过,但最近的实验技术已经允许研究它们的结构。氦原子之间的弱相互作用导致氦-氦(二聚体)散射长度$a$,远远大于氦-氦相互作用的有效范围$r$。这一特征在一种理论中得到了利用,该理论系统地扩展了以r/a为幂的可观测值,即短程有效场论(srEFT),该理论已成功地用于研究冷原子系统的性质。利用srEFT研究了冷氦原子在三体基态和激发态下原子的平均键长。在srEFT中,我们发现$^4$He三聚体基态的平均键长为8.35(33)A (10.29(2) A),激发$^4$He三聚体Efimov态的平均键长为103(4)A (105.3(2) A)。
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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