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学术报告
【19-12-24】 李冰:Observation of Electroweak Vector Boson Scattering with the ATLAS Detector and Prospects at the High-Luminosity LHC
作者:        发布时间:2019-12-10        点击数:

报告题目: Observation of Electroweak Vector Boson Scattering with the ATLAS Detector and Prospects at the High-Luminosity LHC
报  告  人:李冰 博士
                (美国密歇根大学,博士后)University of Michigan
邀  请  人:李海峰
报告时间:12月24日(周二) ,14:00
报告地点:第周苑E -122


报告摘要:
In the Standard Model (SM) of particle physics, elementary particles acquire their masses by interacting with the Higgs field. This process is governed by a delicate mechanism: electroweak symmetry breaking (EWSB). Although EWSB was first proposed in 1964, it remains among the least understood phenomena of the SM as a large dataset of high-energy particle collisions is required to probe it. Observation of vector boson scattering (VBS) has been a new research direction after the Higgs boson discovery in 2012 at the LHC. This observation is crucial to understand the electroweak symmetry breaking dynamics. Vector bosons (the W and Z) are the force-carriers of the weak force, and the successful measurement of these exceedingly rare processes would either provide important tests of the SM of particle physics, or perhaps point the way to new physics. ATLAS has recently observed the electroweak production of two jets in association with a Z-boson pair using the full Run 2 dataset, which marks the new milestone in the study of EWSB. A detailed review of this analysis will be presented, and further scrutiny of EWSB will continue in other channels as well as with future datasets at the Run 3 and high-luminosity LHC.


报告人简介:
Bing Li is a postdoctoral research fellow at the University of Michigan, working on the ATLAS experiment at CERN. He has been working on the studies related to the SM multi-boson interactions and Higgs physics, as well as the searches for new physics at the LHC. Furthermore, Bing Li has taken major responsibilities for muon detector operation and maintenance, including the study of the MDT readout efficiency as a function of luminosity increase to guide the Muon detector upgrade strategies for Phase-I and Phase-II upgrade.