Undergraduate

The Elusives Journal Club

Members in the departments of physics and astronomy who work on dark matter and neutrino-related fields are invited to get together to discuss papers related to their field. Topics include: neutrinos, dark matter, BSM physics, fundamental symmetries, precision physics and more.

The Elusives Journal Club

Members in the departments of physics and astronomy who work on dark matter and neutrino-related fields are invited to get together to discuss papers related to their field. Topics include: neutrinos, dark matter, BSM physics, fundamental symmetries, precision physics and more.

The Elusives Journal Club

Members in the departments of physics and astronomy who work on dark matter and neutrino-related fields are invited to get together to discuss papers related to their field. Topics include: neutrinos, dark matter, BSM physics, fundamental symmetries, precision physics and more.

The Elusives Journal Club

Members in the departments of physics and astronomy who work on dark matter and neutrino-related fields are invited to get together to discuss papers related to their field. Topics include: neutrinos, dark matter, BSM physics, fundamental symmetries, precision physics and more.

The Elusives Journal Club

Members in the departments of physics and astronomy who work on dark matter and neutrino-related fields are invited to get together to discuss papers related to their field. Topics include: neutrinos, dark matter, BSM physics, fundamental symmetries, precision physics and more.

The Elusives Journal Club

Members in the departments of physics and astronomy who work on dark matter and neutrino-related fields are invited to get together to discuss papers related to their field. Topics include: neutrinos, dark matter, BSM physics, fundamental symmetries, precision physics and more.

WIDG Seminar: Benjamin Siegel, Yale, “Searching for Dark Matter via a Levitated Microsphere Array”

Optically levitated masses have many applications in precision measurement, including tests of the neutrality of matter, millicharged particle searches, and dark matter detection. For such searches in which sensitivities scale with the mass or number of neutrons in the test particle, using larger, heavier spheres extends their reach. To capitalize upon this, we have used spheres with diameters on the micrometer scale in past experiments. Further improvements in sensitivity to rare events and rejection of correlated noise sources can be achieved using an array of levitated microspheres.

NPA Seminar: Jamie Karthein, MIT, “Fluctuations of Conserved Charges for QCD Phase Diagram Characterization”

Fluctuations provide a powerful tool for elucidating the nature of strongly-interacting matter in the QCD phase diagram. In heavy-ion-collision systems, the net-particle number fluctuations are captured at the moment of chemical freeze-out. Studies of the chemical freeze-out via susceptibilities from Lattice QCD and the Hadron Resonance Gas model contribute to the characterization of the transition region of the QCD phase diagram.

WIDG Seminar: Samantha Pagan, Yale, “A Search for Solar Axions with CUORE”

Abstract: The Cryogenic Underground Observatory for Rare Events (CUORE) is an experiment searching for neutrinoless double-beta in Te-130. An observation of this ultra-rare decay would determine that neutrinos are Majorana particles. As an extremely low background experiment with high energy resolution and exposure, CUORE is sensitive to other rare-event searches such as for solar axions and Axion Like Particles (ALPs). Axions are a well-motivated dark matter candidate that could also provide a solution for the QCD Strong CP problem.

NPA Seminar: Dennis Perepelitsa, University of Colorado Boulder, “The Long Range Plan for Nuclear Science: A Perspective on Hot QCD Priorities”

Abstract: The U.S. nuclear physics community is at the beginning of its Long Range Plan for Nuclear Science process, taking place every 6-8 years. The goal of the planning process is to identify the priorities for the field going forward, including its scientific direction and investments in major detectors or facilities.

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