Austin Baty

Austin Baty is an esteemed Assistant Professor of Physics at the University of Illinois Chicago, where he delves into the intricate world of high-energy physics. His primary research interest lies in the exploration of Quark-Gluon Plasma (QGP), a state of matter that existed briefly after the Big Bang. This plasma is recreated in laboratory conditions through high-energy collisions of heavy ions at the Large Hadron Collider (LHC) in Geneva, Switzerland, allowing Baty to study its properties and behaviors. Beyond his work with QGP, Baty's research encompasses a broader spectrum of particle physics. He conducts comprehensive analyses of electron-positron and proton-proton collisions, contributing significantly to the understanding of fundamental particles and forces. His expertise has been instrumental in advancing the CMS particle tracking and data acquisition systems, crucial components for capturing and analyzing collision data at the LHC. In addition to his contributions at the LHC, Baty is actively involved in the development of a new detector for the forthcoming Electron-Ion Collider. This project aims to provide deeper insights into the structure of matter and the forces that hold atomic nuclei together. His work in this area underscores his commitment to pushing the boundaries of experimental physics and enhancing the capabilities of particle detection technologies. Baty's academic journey began at Texas A&M University, where he earned a Bachelor's degree in Physics and Math in 2013. He then pursued his doctoral studies at the Massachusetts Institute of Technology (MIT), obtaining a Ph.D. in Physics in 2019. His educational background laid a strong foundation for his research endeavors, equipping him with the skills and knowledge necessary to tackle complex scientific challenges. Throughout his career, Austin Baty has demonstrated a passion for unraveling the mysteries of the universe through experimental physics. His work not only contributes to the fundamental understanding of the universe's earliest moments but also drives technological advancements in particle detection and analysis. As a dedicated educator and researcher, Baty continues to inspire the next generation of physicists while making significant strides in the field of high-energy physics.