ALICE 前向量热器升级(FoCal)的物理程序和性能

Laura Maria Huhtafor the ALICE collaboration
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摘要

FoCal是一个高粒度正向量热计,将作为ALICE升级子系统在大型强子对撞机长停机3期间安装,并在大型强子对撞机运行4期间获取数据。 FoCal探测器覆盖了3.2美元 <\eta < 5.8美元的伪振幅区间,扩展了ALICE物理计划,使其有能力研究低x$制度下的胶子粒子分布函数(PDFs),低至x \approx 10^{-6}$。FoCal测量将为实验数据稀缺的相空间区域中的粒子分布函数提供实验约束,并能够研究胶子饱和等非线性QCD效应。FoCal 探测器由两部分组成。高粒度硅+电磁量热计(FoCal-E)带有垫层和像素纵向及横向分段读出层,具有很高的空间分辨率,可以区分孤立光子和衰变光子对。强子短量子计(FoCal-H)由充满闪烁体纤维的毛细铜管构成,用于隔离能量测量和射流。采用这种探测器设计,FoCal能够测量直接光子、射流和矢量介子的光生,如p$-$Pb和Pb$-$Pb超外围对撞中的$J/\psi$。此外,还可以研究不同探测器的相关性,包括$\gamma$$-$jet、jet$-$jet和$\pi^{0} -\pi^{0}$相关性。这些测量将对包含非线性QCD效应的各种理论模型施加严格的约束。本文概述了FoCal物理计划。此外,还介绍了不断改进的探测器原型的最新实验结果(这些原型于2021-2023年在欧洲核子研究中心的测试束设施中进行了测试),以及展示探测器设计稳健性及其物理潜力的模拟研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Physics program and performance of the ALICE Forward Calorimeter upgrade (FoCal)
The FoCal is a high-granularity forward calorimeter to be installed as an ALICE upgrade subsystem during the LHC Long Shutdown 3 and take data during the LHC Run 4. The FoCal detector, covering a pseudorapidity interval of $3.2 < \eta < 5.8$, extends the ALICE physics program with the capability to investigate gluon Parton Distribution Functions (PDFs) in the low-$x$ regime, down to $x \approx 10^{-6}$. FoCal measurements will provide experimental constraints for PDFs in a region of phasespace where experimental data is scarce, as well as enable the study of non-linear QCD effects like gluon saturation. The FoCal detector consists of two components. The highly-granular Si+W electromagnetic calorimeter (FoCal-E) with pad and pixel longitudinal and transverse segmented readout layers provides high spatial resolution for discriminating between isolated photons and decay photon pairs. The hadronic calorimeter (FoCal-H) is constructed from copper capillary tubes filled with scintillator fibers and is used for isolation energy measurement and jets. With this detector design, FoCal is capable of measuring direct photons, jets, and the photo-production of vector mesons such as the $J/\psi$ in p$-$Pb and Pb$-$Pb ultra-peripheral collisions. In addition, correlations of different probes can be studied, including $\gamma$$-$jet, jet$-$jet and $\pi^{0} - \pi^{0}$ correlations. These measurements will place stringent constraints to various theoretical models incorporating non-linear QCD effects. This contribution gives an overview of the FoCal physics program. Also, recent experimental results of ever-improving prototypes of the detector, which were tested at the Test Beam facilities of CERN in the years 2021$-$2023, as well as simulation studies showcasing the robustness of the detector design and its physics potential are presented.
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