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I am an experimental particle physicist working on the ATLAS experiment at the Large Hadron Collider (LHC) just outside Geneva in Switzerland. I have broad interests in particle physics, but the primary focus of my research is the Higgs boson -- the most recently discovered elementary particle, the only known elementary scalar of nature and the final piece of the remarkably successful Standard Model. However, this discovery leaves many imporatnt questions unanswered and uncovers further questions. The Higgs is not just another particle. It is profoundly different from all other elementary particles, relates to the most obscure sectors of the Standard Model and is linked to some of the deep questions, so it might prove to be a portal to find new physics. I study the properties of the Higgs boson and, in particular, how it interacts with different types of quarks, including top, bottom and charm quarks. Other research interests include the development of track reconstruction algorithms, silicon detectors and algorithms for quantum computers. A theme throughout my research is applications of machine learning.
I collaborate with Professors Marjorie Shapiro and Haicheln Wang at UC Berkeley and with scientists in the ATLAS group at Lawrence Berkeley National Laboratory (LBNL). The ATLAS group at LBNL works on a broad range of physics topics from measurements to the Standard Model to searches for new physics. The group also plays important roles in the operation of the ATLAS pixel detectors, design and construction of upgraded silicon detectors, software development for improved detector performance, event generation, simulation, and computing.
I am an experimental particle physicist working on the ATLAS experiment at the Large Hadron Collider (LHC) just outside Geneva in Switzerland. I have broad interests in particle physics, but the primary focus of my research is the Higgs boson -- the most recently discovered elementary particle, the only known elementary scalar of nature and the final piece of the remarkably successful Standard Model. However, this discovery leaves many imporatnt questions unanswered and uncovers further questions. The Higgs is not just another particle. It is profoundly different from all other elementary particles, relates to the most obscure sectors of the Standard Model and is linked to some of the deep questions, so it might prove to be a portal to find new physics. I study the properties of the Higgs boson and, in particular, how it interacts with different types of quarks, including top, bottom and charm quarks. Other research interests include the development of track reconstruction algorithms, silicon detectors and algorithms for quantum computers. A theme throughout my research is applications of machine learning.
I collaborate with Professors Marjorie Shapiro and Haicheln Wang at UC Berkeley and with scientists in the ATLAS group at Lawrence Berkeley National Laboratory (LBNL). The ATLAS group at LBNL works on a broad range of physics topics from measurements to the Standard Model to searches for new physics. The group also plays important roles in the operation of the ATLAS pixel detectors, design and construction of upgraded silicon detectors, software development for improved detector performance, event generation, simulation, and computing.
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Comput. Softw. Big Sci.no. 1 (2023): 1-19
Xiaocong Ai,Corentin Allaire, Noemi Calace,Angéla Czirkos,Markus Elsing, Irina Ene, Ralf Farkas, Louis-Guillaume Gagnon,Rocky Garg, Paul Gessinger, Hadrien Grasland,Heather M. Gray,
arxiv(2022)
Comput. Softw. Big Sci.no. 1 (2021)
24TH INTERNATIONAL CONFERENCE ON COMPUTING IN HIGH ENERGY AND NUCLEAR PHYSICS (CHEP 2019) (2020): 02035
Paul Gessinger, Hadrien Grasland,Heather Gray,Moritz Kiehn, Fabian Klimpel, Robert Langenberg,Andreas Salzburger, Bastian Schlag,Jin Zhang,Xiaocong Ai
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