偏振pA碰撞中中子的单自旋不对称性

IF 1.5 Q2 PHYSICS, MULTIDISCIPLINARY Physics Pub Date : 2023-11-07 DOI:10.3390/physics5040068

Boris Z. Kopeliovich, Irina K. Potashnikova, Iván Schmidt

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引用次数: 0

摘要

吸收修正，已知在pp碰撞中抑制具有较大分数动量z→1的质子-中子跃迁，在核目标上变得非常强，并且它们将导致中子产生的部分横截面推到核的非常外围。成功解释极化pp→nX中观测到的单自旋不对称性的介子π和轴向介子a1干涉机制，推广到极化质子与原子核的碰撞。当对核效应进行校正后，它解释了在非弹性事件中产生的中子的单自旋方位不对称性，这是原子核剧烈分裂的地方。发现这种单自旋不对称是负的，几乎与原子质量数a无关。

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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Single-Spin Asymmetry of Neutrons in Polarized pA Collisions

Absorptive corrections, which are known to suppress proton-neutron transitions with a large fractional momentum z→1 in pp collisions, become dramatically strong on a nuclear target, and they push the partial cross sections of leading neutron production to the very periphery of the nucleus. The mechanism of the pion π and axial vector meson a1 interference, which successfully explains the observed single-spin asymmetry in a polarized pp→nX, is extended to the collisions of polarized protons with nuclei. When corrected for nuclear effects, it explains the observed single-spin azimuthal asymmetry of neutrons that is produced in inelastic events, which is where the nucleus violently breaks up. This single-spin asymmetry is found to be negative and nearly atomic mass number A-independent.

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