Physics Perspectives with the ePIC Far-Forward and Far-Backward detectors

arXiv - PHYS - Instrumentation and Detectors Pub Date : 2024-09-04 DOI:arxiv-2409.02811

Michael Pitt

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Abstract

The forthcoming Electron--Ion Collider (EIC), which is expected to commence operations in the early 2030s, has already reached several significant milestones on its path toward completion. The core of the EIC physics program is the 3D imaging of partonic structures in protons and nuclei. The experimental detector setup required to enable this primary objective utilizes "far-forward" (FF) and "far-backward" (FB) detectors positioned downstream in the hadron-going and electron-going directions, respectively, from the interaction point of the EIC. The primary purpose of the FB detectors is to monitor luminosity and measure scattered electrons in collisions in the EIC, while the array of FF detectors is used to tag and reconstruct both charged and neutral particles that scatter at small angles. These detectors also enable a broader physics program than was initially envisioned, enhancing the EIC's research potential. The expanded capabilities have been a prime focus for engaging the broader nuclear physics community to build a robust groundwork for the EIC. In these proceedings, we will describe the FF/FB detectors and review the advanced forward physics program facilitated by them at the EIC.

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ePIC 远向和远向后探测器的物理视角

即将投入使用的电子-离子对撞机（EIC）预计将于2030年代初开始运行，在其竣工的道路上已经取得了几个重要的里程碑。EIC物理计划的核心是对质子和原子核中的部分子结构进行三维成像。实现这一主要目标所需的实验探测器设置利用了 "远向前"（FF）和 "远向后"（FB）探测器，这两个探测器分别位于强子和电子的下游方向，从EIC的相互作用点出发。FB探测器的主要用途是监测光度和测量EIC碰撞中的散射电子，而FF探测器阵列则用于标记和重建小角度散射的带电粒子和中性粒子。这些探测器还使物理项目的规模超出了最初的设想，增强了 EIC 的研究潜力。扩展能力一直是吸引更广泛的核物理学界为 EIC 奠定坚实基础的首要重点。在本论文集中，我们将介绍 FF/FB 探测器，并回顾它们在 EIC 所推动的先进正向物理计划。

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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arXiv - PHYS - Instrumentation and Detectors

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