报 告 人:马杨 博士(意大利国家核子中心)
主 持 人:岩斌 副研究员 (中国科学院高能物理研究所)
报告时间:2023年11月21日(周二),上午10:00
报告地点:图书馆楼319会议室
报告摘要:
The largest scientific marvel ever constructed by humankind, the Large Hadron Collider (LHC) at CERN, has etched its name in history with groundbreaking discoveries, most notably the revelation of the Higgs boson. Fascination with the prospect of attaining ever-higher energies in collider construction has been a driving force for particle physicists. Multi-TeV lepton colliders, a fusion of electron-positron and hadron machines, promise to revolutionize science with unparalleled energy and precision. They open doors to a multitude of physics prospects, from Higgs and top quark production to W/Z factories, jets, and neutrino sources. At energies far exceeding the electroweak scale, radiation effects play a pivotal role and require meticulous attention. I will introduce the electroweak parton framework for high-energy lepton colliders, with a focus on electroweak parton distribution functions (EW PDFs) governing initial-state radiation (ISR). Using this framework, I will outline Standard Model (SM) predictions for potential high-energy electron-positron and muon colliders, providing invaluable insights for future analyses. Additionally, I will highlight the diverse physics opportunities that a future muon collider can offer, providing a comprehensive overview of the scientific landscape at high-energy lepton colliders.
个人简介:
马杨,意大利国家核子中心博士后(2022-至今),2022年博士毕业于美国匹兹堡大学。研究方向为粒子物理理论,主要涉及量子色动力学、希格斯物理、弱电物理理论以及相关的高能对撞机上的现象学。
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