不同框架下onia的核散射构型

A. D. Le, A. Mueller, S. Munier
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引用次数: 2

摘要

在高质心能量下小元素从大原子核散射的过程中,当设定参数使固定撞击参数下的横截面很小时,事件是由元素的罕见的部分子涨落引起的,相对于典型构型来说,这种涨落是非常变形的。利用量子色动力学中高能相互作用的彩色偶极子图,我们描述了从不同参照系中看到的典型散射构型,从原子核的重新参照系到抛射态与原子核共享速度的参照系。我们表明,利用后一类中选择框架的自由,可以从一个程序中推导出一些超越总横截面的boost-invariant量的完全渐近表达式,该程序利用了控制总横截面速度依赖性的Balitsky-Kovchegov方程解的有限可用知识。用这种方法,我们得到了散射集中最慢的母偶极子的第一分支的速度分布的解析表达式。这种分布提供了相互作用偶极子相关性的估计,并且已知与衍射解离的快速间隙分布有关,这是在未来的电子-离子对撞机上可观察到的。此外,我们的结果可以被表述为一个更一般的猜想,我们期望对任何一维分支随机行走模型都成立,在所有粒子最近的共同祖先的分支时间上,最终到达给定位置的右边。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nuclear scattering configurations of onia in different frames
In the scattering of a small onium off a large nucleus at high center-of-mass energies, when the parameters are set in such a way that the cross section at fixed impact parameter is small, events are triggered by rare partonic fluctuations of the onium, which are very deformed with respect to typical configurations. Using the color dipole picture of high-energy interactions in quantum chromodynamics, in which the quantum states of the onium are represented by sets of dipoles generated by a branching process, we describe the typical scattering configurations as seen from different reference frames, from the restframe of the nucleus to frames in which the rapidity is shared between the projectile onium and the nucleus. We show that taking advantage of the freedom to select a frame in the latter class makes possible to derive complete asymptotic expressions for some boost-invariant quantities, beyond the total cross section, from a procedure which leverages the limited available knowledge on the properties of the solutions to the Balitsky-Kovchegov equation that governs the rapidity-dependence of total cross sections. We obtain in this way an analytic expression for the rapidity-distribution of the first branching of the slowest parent dipole of the set of those which scatter. This distribution provides an estimator of the correlations of the interacting dipoles, and is also known to be related to the rapidity-gap distribution in diffractive dissociation, an observable measurable at a future electron-ion collider. Furthermore, our result may be formulated as a more general conjecture, that we expect to hold true for any one-dimensional branching random walk model, on the branching time of the most recent common ancestor of all the particles that end up to the right of a given position.
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