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My interests are primarily in QCD, with a focus on the theory at high energies, where quarks and gluons display novel interesting collective many-body behavior; one example is the strongly interacting quark gluon plasma (QGP) produced in heavy ion collisions at RHIC and at the LHC.
I am interested in how quantum states that generate this matter look like in nuclear wave functions—their properties can be described as a Color Glass Condensate (CGC). When two CGCs collide, they shatter to form a highly non-equilibrium Glasma state. In strong analogy with inflationary dynamics in the early universe, quantum fluctuations play an essential role in thermalizing quark-gluon matter and in generating long range rapidity correlations. Remarkably, experiments at RHIC and LHC are able to extract finger prints of such dynamics, providing insight into how strong color fields thermalize into the QGP.
The CGC can also be probed directly in deuteron-gold collisions at RHIC and in p+A collisions at the LHC. Further precision studies in the future are feasible with an Electron Ion Collider (EIC).
With on-going discoveries at RHIC and the LHC, and active plans for future facilities, the study of collective phenomena in QCD (the most perfect theory known) is a vibrant sub-field of physics.
I am interested in how quantum states that generate this matter look like in nuclear wave functions—their properties can be described as a Color Glass Condensate (CGC). When two CGCs collide, they shatter to form a highly non-equilibrium Glasma state. In strong analogy with inflationary dynamics in the early universe, quantum fluctuations play an essential role in thermalizing quark-gluon matter and in generating long range rapidity correlations. Remarkably, experiments at RHIC and LHC are able to extract finger prints of such dynamics, providing insight into how strong color fields thermalize into the QGP.
The CGC can also be probed directly in deuteron-gold collisions at RHIC and in p+A collisions at the LHC. Further precision studies in the future are feasible with an Electron Ion Collider (EIC).
With on-going discoveries at RHIC and the LHC, and active plans for future facilities, the study of collective phenomena in QCD (the most perfect theory known) is a vibrant sub-field of physics.
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Physical review lettersno. 8 (2024): 081902-081902
Renaud Boussarie,Matthias Burkardt,Martha Constantinou,William Detmold, Markus Ebert,Michael Engelhardt,Sean Fleming,Leonard Gamberg,Xiangdong Ji,Zhong-Bo Kang, Christopher Lee,Keh-Fei Liu,
arXiv (Cornell University) (2023)
arXiv (Cornell University) (2023)
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Raktim Abir, Igor Akushevich, Tolga Altinoluk, Daniele Paolo Anderle, Fatma P. Aslan,Alessandro Bacchetta, Baha Balantekin, Joao Barata, Marco Battaglieri,Carlos A. Bertulani, Guillaume Beuf, Chiara Bissolotti,
arxiv(2023)
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M. Arslandok,S. A. Bass, A. A. Baty,I. Bautista, C. Beattie,F. Becattini,R. Bellwied, Y. Berdnikov,A. Berdnikov, J. Bielcik, J. T. Blair, F. Bock,
arXiv (Cornell University) (2023)
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arXiv (Cornell University) (2023)
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arXiv (Cornell University) (2023)
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openalex(2023)
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