Searches for New Phenomena in the Higgs Sector at the LHC

在大型强子对撞机中寻找希格斯粒子的新现象

• 批准号: 2110900
• 负责人: Jahred Adelman
• 金额: $ 105万
• 依托单位: Northern Illinois University
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2021
• 资助国家: 美国
• 起止时间: 2021-08-15 至 2024-07-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2110900&HistoricalAwards=false
• 关键词: Searches; New; Phenomena; Higgs; Sector

This award will provide support to a Northern Illinois University group working on the ATLAS experiment at the Large Hadron Collider (LHC) at CERN, a particle physics laboratory in Geneva, Switzerland. The LHC machine and ATLAS, a large particle detector facility, were built as basic science tools using funds from NSF and other agencies around the world. One of their primary objectives was to find the Higgs Boson, the last particle in the historically successful "Standard Model" (SM) that accounts for so much of the existence of, and forces between, known particles forming the matter in the universe. This effort has been successful. The next step in the experiment is to study the properties and characteristics of this newly discovered particle as a laboratory to see if it behaves as the SM predicts or if there are deviations suggesting evidence for new physics Beyond the Standard Model (BSM) that might, for instance, account for the presence of the mysterious "Dark Matter" that makes up so much of the mass of the universe. This group will participate in these studies. The LHC is currently analyzing Run 2 data, at almost twice the energy explored earlier and with significantly increased event samples. It is possible that evidence for BSM physics could emerge at this higher energy and with the higher event statistics from the current run and by means of further upgrades of the LHC and ATLAS to follow.To facilitate a detailed study of the Higgs Boson and search for other new states of matter, the NIU group will be focusing their studies on Higgs couplings, including self-coupling, in order to determine whether this particle is the sole Higgs boson postulated in the Standard Model, or one of multiple neutral scalar bosons postulated in various BSM scenarios. Much of the analytical effort is focused on searches for pair production of the only Higgs particle discovered so far. Additionally the group has had a long-standing interest in the ATLAS searches for charged Higgs bosons featured in certain extended Higgs models, and in differential cross section measurements of Higgs boson decays into two gamma rays.The NIU group is also engaged in the Phase 2 Upgrade of the TileCAL, hadronic calorimeter, and experimental subsystem essential for energy and missing energy measurements, and in advanced Fast Track Triggering for the experiment called the FTK, which is central to being able to trigger on important physics objectives as the LHC luminosity increases.An integral part of the NIU group activity is outreach to K-12 students, teachers, and the general public. Their program includes an active QuarkNet center at NIU that hosts annual one-day masterclasses, week-long workshops, and 6-8-week summer internships. The group is also active in a variety of programs to engage the public, some hosted at NIU and others at nearby Fermi National Accelerator Laboratory.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

该奖项将为北方伊利诺伊大学的一个小组提供支持，该小组在瑞士日内瓦的粒子物理实验室CERN的大型强子对撞机（LHC）上进行ATLAS实验。大型强子对撞机和大型粒子探测器设施ATLAS是利用NSF和世界各地其他机构的资金建造的基础科学工具。他们的主要目标之一是找到希格斯玻色子，这是历史上成功的“标准模型”（SM）中的最后一种粒子，该模型解释了宇宙中形成物质的已知粒子的存在及其之间的作用力。这一努力取得了成功。实验的下一步是作为实验室研究这种新发现粒子的性质和特征，看看它的行为是否与标准模型预测的一样，或者是否存在偏差，表明新物理超越标准模型（BSM）的证据，例如，解释了神秘的“暗物质”的存在，它构成了宇宙的大部分质量。该小组将参与这些研究。大型强子对撞机目前正在分析运行2数据，几乎是早期探索的能量的两倍，并且事件样本显著增加。在这种更高的能量下，随着当前运行的更高事件统计数据以及随后的LHC和ATLAS的进一步升级，BSM物理学的证据可能会出现。为了促进对希格斯玻色子的详细研究和寻找其他新的物质状态，NIU小组将专注于希格斯耦合的研究，包括自耦合，为了确定这个粒子是否是标准模型中假设的唯一希格斯玻色子，或者是各种BSM场景中假设的多个中性标量玻色子之一。大部分分析工作都集中在寻找迄今为止发现的唯一希格斯粒子的成对产生上。此外，该小组长期以来一直对ATLAS搜索某些扩展希格斯模型中的带电希格斯玻色子以及希格斯玻色子衰变为两条伽马射线的微分截面测量感兴趣。NIU小组还参与了TileCAL，强子量热计和实验子系统的第二阶段升级，这些子系统对于能量和缺失能量测量至关重要，以及FTK实验的高级快速跟踪触发，这是随着LHC亮度增加能够触发重要物理目标的核心。NIU小组活动的一个组成部分是向K-12学生，教师和公众推广。他们的计划包括NIU的一个活跃的QuarkNet中心，该中心每年举办为期一天的大师班，为期一周的研讨会和6-8周的暑期实习。该小组还积极参与各种项目，以吸引公众，一些主办在NIU和其他在附近的费米国家加速器实验室。这个奖项反映了NSF的法定使命，并已被认为是值得通过使用基金会的智力价值和更广泛的影响审查标准进行评估的支持。