Nuclear Seminar- Sanjay Reddy (Univ. of Washington)- Connecting Quarks to the Cosmos: The Role of Quark Masses

Prof. Reddy in front of a bookcase
November 19, 2024
2:00PM - 3:00PM
4138 Physics Research Building

Date Range
2024-11-19 14:00:00 2024-11-19 15:00:00 Nuclear Seminar- Sanjay Reddy (Univ. of Washington)- Connecting Quarks to the Cosmos: The Role of Quark Masses Dr. Sanjay ReddyInstitute for Nuclear Theory, Univ. of Washington, SeattleConnecting Quarks to the Cosmos: The Role of Quark MassesLocation: 4138 Physics Research BuildingFaculty Host: Yuri Kovchegov Abstract: Quantum Chromo Dynamics (QCD), an elegant and deceptively simple theory of quarks and gluons with just a few parameters, is expected to give rise to all the complexity of hadrons and their interactions. About 30 years ago, theorists began to address how variations in the quark masses would impact nuclear physics.In my talk, I highlight recent work inspired by these earlier studies that elucidate the role of the quark mass in low-energy nuclear physics. I will show that understanding the quark mass dependence of the nuclear force has implications for three-nucleon forces in nuclei and neutron stars, the interpretation of pionic atoms, and axion condensation at finite baryon density.   4138 Physics Research Building America/New_York public

Dr. Sanjay Reddy

Institute for Nuclear Theory, Univ. of Washington, Seattle

Connecting Quarks to the Cosmos: The Role of Quark Masses

Location: 4138 Physics Research Building

Faculty Host: Yuri Kovchegov

 

Abstract: Quantum Chromo Dynamics (QCD), an elegant and deceptively simple theory of quarks and gluons with just a few parameters, is expected to give rise to all the complexity of hadrons and their interactions. About 30 years ago, theorists began to address how variations in the quark masses would impact nuclear physics.

In my talk, I highlight recent work inspired by these earlier studies that elucidate the role of the quark mass in low-energy nuclear physics. I will show that understanding the quark mass dependence of the nuclear force has implications for three-nucleon forces in nuclei and neutron stars, the interpretation of pionic atoms, and axion condensation at finite baryon density.