Kaitlin Cook

Kaitlin Cook's work is a beacon for progress in the field of experimental nuclear physics, where she serves as an Assistant Professor at the National Superconducting Cyclotron Laboratory (NSCL) at Michigan State University. Her research is pivotal in exploring nuclear reactions at collision energies near the Coulomb barrier, aiming to unravel the intricate interplay between nuclear structure and reaction dynamics. With a keen interest in the behavior of weakly-bound nuclei, Kaitlin delves into the processes that hinder the production of superheavy elements, a frontier in nuclear physics that holds the promise of discovering new elements. Her work is instrumental in advancing our understanding of nuclear reactions, particularly focusing on the mechanisms of breakup, fusion, and fission. Kaitlin is also dedicated to the development of innovative detector systems and methodologies, enhancing the precision and accuracy of measurements in nuclear experiments. Her contributions are not only advancing the scientific community's knowledge but also paving the way for future discoveries in nuclear structure and reaction dynamics. Through her research, Kaitlin Cook continues to push the boundaries of what is known about nuclear physics, making significant strides in the study of reaction dynamics and the fundamental properties of atomic nuclei. Her work is a testament to the potential of experimental physics to unlock the mysteries of the universe.