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职业迁徙
个人简介
Research at the interface between theoretical particle physics (high-energy and nuclear-QCD) and supercomputing. LLNL Lattice Team Leader. Leader and co-founder of Lattice Strong Dynamics and CalLat collaborations (LLNL/LBNL).
Used LLNL's massively parallel 2-petaflop Vulcan supercomputer with LSD collaborators to devise a new model of dark matter, Stealth Dark Matter, which may identify why dark matter has evaded direct detection in Earth-based experiments: "Direct Detection of Stealth Dark Matter Through Electromagnetic Polarizability" appeared in an edition of the journal Physical Review Letters and was an "Editor’s Choice" in 2015.
With CalLat collaborators, calculated, with unprecedented precision, a quantity that is central to the understanding of a neutron’s lifetime, the nucleon axial coupling (gA), with research appearing in the May 30, 2018, issue of Nature, "A per-cent-level determination of the nucleon axial coupling from quantum chromodynamics". The new theoretical determination of gA is based on a simulation of a tiny piece of the universe -- the size of a few neutrons in each direction, simulating a neutron transitioning to a proton inside this tiny section of the universe to confirm what happens in nature.
Other Recognitions:
Scientific organizer of the LSD BSM (Lattice Strong Dynamics/Beyond the Standard Model) annual workshops, 2008 to present.
Chair organizer of the International Lattice 2011 conference.
DOE/HEP Early Career Awards 2012 invited panelist.
Gordon Bell Award Finalist (one of six international finalists) 2013 and 2018.
DOE/HEP/QuantISED 2020 invited panelist.
Used LLNL's massively parallel 2-petaflop Vulcan supercomputer with LSD collaborators to devise a new model of dark matter, Stealth Dark Matter, which may identify why dark matter has evaded direct detection in Earth-based experiments: "Direct Detection of Stealth Dark Matter Through Electromagnetic Polarizability" appeared in an edition of the journal Physical Review Letters and was an "Editor’s Choice" in 2015.
With CalLat collaborators, calculated, with unprecedented precision, a quantity that is central to the understanding of a neutron’s lifetime, the nucleon axial coupling (gA), with research appearing in the May 30, 2018, issue of Nature, "A per-cent-level determination of the nucleon axial coupling from quantum chromodynamics". The new theoretical determination of gA is based on a simulation of a tiny piece of the universe -- the size of a few neutrons in each direction, simulating a neutron transitioning to a proton inside this tiny section of the universe to confirm what happens in nature.
Other Recognitions:
Scientific organizer of the LSD BSM (Lattice Strong Dynamics/Beyond the Standard Model) annual workshops, 2008 to present.
Chair organizer of the International Lattice 2011 conference.
DOE/HEP Early Career Awards 2012 invited panelist.
Gordon Bell Award Finalist (one of six international finalists) 2013 and 2018.
DOE/HEP/QuantISED 2020 invited panelist.
研究兴趣
论文共 206 篇作者统计合作学者相似作者
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Richard C. Brower, Christopher Culver,Kimmy K. Cushman,George T. Fleming,Anna Hasenfratz,Dean Howarth, James Ingoldby, Xiao Yong Jin, Graham D. Kribs,Aaron S. Meyer,Ethan T. Neil,James C. Osborn,
arxiv(2023)
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arxiv(2023)
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arxiv(2022)
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T. Appelquist,R. C. Brower, K. K. Cushman,G. T. Fleming,A. Gasbarro,A. Hasenfratz,J. Ingoldby,X. Y. Jin, J. Kiskis,E. T. Neil,J. C. Osborn,C. Rebbi,
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