索默费尔德-伽莫夫-萨哈罗夫因子中的自旋效应

IF 0.3 4区物理与天体物理 Q4 PHYSICS, NUCLEAR

Physics of Atomic Nuclei Pub Date : 2024-09-02 DOI:10.1134/S106377882470042X

L. P. Kaptari, O. P. Solovtsova

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引用次数: 0

摘要

摘要我们提出了两个任意质量的自旋-1/2粒子通过类似库仑的色动力学势相互作用的复合系统的索默费尔德-伽莫夫-萨哈罗夫因子（Sommerfeld-Gamow-Sakharov factor）的新相对论表达式。分析是在相对论准势方法的框架内进行的，该方法基于 A.A. Logunov、A.N. Tavkhelidze 和 V.G. Kadyshevsky 提出的相对论构型表示中的协变量子场论的哈密顿表述。我们考虑了伪标量、矢量和伪矢量系统，并详细研究了临界点附近和相对论极限中的\(S\)因子的行为。研究认为，在阈值处，自旋的贡献大大降低了索默费尔德效应，而在超相对论速度下，自旋的作用减弱，（S）因子变得与无自旋系统基本相同。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Spin Effects in the Sommerfeld–Gamow–Sakharov Factor

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Spin Effects in the Sommerfeld–Gamow–Sakharov Factor

We present a new relativistic expression for the Sommerfeld–Gamow–Sakharov factor (\(S\)-factor) of a composite system of two spin-1/2 particles of arbitrary masses interacting via a via a Coulomb-like chromodynamical potential. The analysis is performed in the framework of a relativistic quasipotential approach based on the Hamiltonian formulation of the covariant quantum field theory in the relativistic configuration representation suggested by A.A. Logunov, A.N. Tavkhelidze and V.G. Kadyshevsky. The pseudoscalar, vector and pseudovector systems are considered and the behavior of the \(S\)-factor near the threshold and in the relativistic limit is investigated in detail. It is argued that at the threshold the contribution of spins significantly reduces the Sommerfeld effect, while at ultrarelativistic velocities their role diminishes and the \(S\)-factor becomes basically the same as for the spinless systems.

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来源期刊

Physics of Atomic Nuclei 物理-物理：核物理

CiteScore

0.60

自引率

25.00%

发文量

审稿时长

3-6 weeks

期刊介绍： Physics of Atomic Nuclei is a journal that covers experimental and theoretical studies of nuclear physics: nuclear structure, spectra, and properties; radiation, fission, and nuclear reactions induced by photons, leptons, hadrons, and nuclei; fundamental interactions and symmetries; hadrons (with light, strange, charm, and bottom quarks); particle collisions at high and superhigh energies; gauge and unified quantum field theories, quark models, supersymmetry and supergravity, astrophysics and cosmology.