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Abstract: Future muon colliders offer a transformative path toward exploring physics beyond the Standard Model with unprecedented precision and energy reach. Leveraging the unique advantages of muons—such as reduced synchrotron radiation and point-like interactions—these machines can deliver clean, high-energy collisions that are ideal for both precision measurements and direct searches for new phenomena. In this talk, I will present some aspects of the the physics potential of the future Multi-TeV muon colliders, including precision Higgs and electroweak measurements, novel signatures from dark matter, and the direct probes of new heavy resonances. With rapidly advancing accelerator and detector technologies, the era of high-luminosity muon colliders could open a new chapter in particle physics, offering a compelling complement to existing and proposed experiments.
Biography:I am currently a postdoc at the University & INFN Roma Tre. I received my PhD from University of Pittsburgh under the supervisor of Prof. Tao Han, and then moved to UC San Diego for postdoc before joining Roma Tre. I work broadly on particle phenomenology, with recent focus on future muon colliders. I also work on dark matter at colliders and the Kaluza-Klein extra dimensional models of gravity.
Tencent Meeting ID: 212921585
Password:245084