基本信息
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职业迁徙
个人简介
He has worked on flavor physics, beyond standard model scenarios, neutrinos, and dark matter. He received the DOE Outstanding Junior Investigator Award, and is a Fellow of the American Physical Society.
RESEARCH INTERESTS
I have broad interests in particle physics, including the physics of the LHC, dark matter detection, flavor physics, CP violation, and neutrinos. Most of my recent research focuses on theoretical questions about “indirect” searches for new physics. Yet undiscovered particles can influence measurements via virtual effects due to the uncertainty principle. Such searches for new physics were very successful in the past; for example, effects of the top quark were measured much before it was directly discovered. Quark and lepton decays (especially flavor-changing neutral currents and CP violation) already probe mass scales comparable and possibly well above LHC energies, depending on the details of the underlying physics. A clear empirical evidence for new physics comes from the observed baryon asymmetry of the Universe, which requires CP violation beyond the standard model. In the next decade the sensitivity of many measurements that can reveal new sources of CP violation and virtual effects of new heavy particles will increase 100-fold or more, enhancing the sensitivity to new phenomena to several times shorter distance scales (higher energy scales) than we can access today. I pursue several research directions toward better understanding the predictions of the standard model relevant for upcoming experiments, devising new observables sensitive to new physics, and studying the influence of beyond standard model scenarios on upcoming measurements and their synergies and complementarity with the LHC new particle searches.
RESEARCH INTERESTS
I have broad interests in particle physics, including the physics of the LHC, dark matter detection, flavor physics, CP violation, and neutrinos. Most of my recent research focuses on theoretical questions about “indirect” searches for new physics. Yet undiscovered particles can influence measurements via virtual effects due to the uncertainty principle. Such searches for new physics were very successful in the past; for example, effects of the top quark were measured much before it was directly discovered. Quark and lepton decays (especially flavor-changing neutral currents and CP violation) already probe mass scales comparable and possibly well above LHC energies, depending on the details of the underlying physics. A clear empirical evidence for new physics comes from the observed baryon asymmetry of the Universe, which requires CP violation beyond the standard model. In the next decade the sensitivity of many measurements that can reveal new sources of CP violation and virtual effects of new heavy particles will increase 100-fold or more, enhancing the sensitivity to new phenomena to several times shorter distance scales (higher energy scales) than we can access today. I pursue several research directions toward better understanding the predictions of the standard model relevant for upcoming experiments, devising new observables sensitive to new physics, and studying the influence of beyond standard model scenarios on upcoming measurements and their synergies and complementarity with the LHC new particle searches.
研究兴趣
论文共 296 篇作者统计合作学者相似作者
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PHYSICAL REVIEW Dno. 9 (2023)
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arXiv (Cornell University) (2023)
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Physical reviewno. 9 (2023)
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PHYSICAL REVIEW Dno. 1 (2023)
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