N=3的单一窗口的高斯特性:束缚态、散射态和虚态

A. Deltuva, M. Gattobigio, A. Kievsky, M. Viviani
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引用次数: 5

摘要

研究了具有$1/2$自旋-同位旋对称性的三个等玻色子和三个等费米子在统一窗口内的三体系统。我们使用高斯势对窗口进行高斯表征,以定义作为结合能和相移的低能量的轨迹。在此轨迹之上放置实验值,或者在无法获得时,使用已知的实际势计算出的数量来再现实验值。其目的是表明,窗口的高斯特性,被认为是接触相互作用加上距离修正,捕获了实际系统的主要低能特性,例如三个氦原子或三个核子。将实系统在高斯轨迹上的映射作为普遍行为的指示。轨迹连续地将物理点与酉极限联系起来,允许解释在真实系统中出现的可观测值与已知存在于该极限中的可观测值之间的强相关性。在本研究中,我们主要关注低能束缚态、散射态和虚态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Gaussian characterization of the unitary window for N=3 : Bound, scattering, and virtual states
The three-body system inside the unitary window is studied for three equal bosons and three equal fermions having $1/2$ spin-isospin symmetry. We perform a gaussian characterization of the window using a gaussian potential to define trajectories for low-energy quantities as binding energies and phase shifts. On top of this trajectories experimental values are placed or, when not available, quantities calculated using realistic potentials that are known to reproduce experimental values. The intention is to show that the gaussian characterization of the window, thought as a contact interaction plus range corrections, captures the main low-energy properties of real systems as for example three helium atoms or three nucleons. The mapping of real systems on the gaussian trajectories is taken as indication of universal behavior. The trajectories continuously link the physical points to the unitary limit allowing for the explanation of strong correlations between observables appearing in real systems and which are known to exist in that limit. In the present study we focus on low-energy bound, scattering and virtual states.
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