b'TALENT PIPELINE: We believe that precision DSC experiments and correlative atomistic simulations Charles Hirst, student should be deployed along with other current powerful characterization techniques at Massachusetts Institute of Technology to yield insight into the structure-property relationships within materials. Today, this Kangpyo So, postdoc concept is in its infancy, but with further development, this strategy has significant at Massachusetts Institute of Technology potential for linking structure and properties in many areas of materials science.Penghui Cao, postdocat Massachusetts Institute of Technology PRESENTATIONS:Hirst, C. A., R. S. Kemp, J. Li, M. Short, and S. Middlemas. Revealing hidden defects via stored energy measurements of radiation damage, The Minerals, Metals & Materials Society 2022 Annual Meeting & Exhibition, Anaheim, CA, USA, Feb. 27Mar. 3, 2022.Hirst, C. A., P. Cao, and M. Short, Direct measurement of radiation damage through the energy stored in defects: Simulations and experiments, The Minerals, Metals & Materials Society 2020 Annual Meeting & Exhibition, San Diego, CA, USA, Feb. 2327, 2020.Hirst, C. A., P. Cao, J. Li, R. S. Kemp, and M. Short, Developing a method to measure radiation damage in metals using calorimetry, 6th Flash DSC Conference, Zurich, Switzerland, Nov. 2527, 2019.Hirst, C. A., P. Cao, R. S. Kemp, and M. Short, Developing a method to quantify radiation damage using stored energy: Simulations and experiments, Materials in Nuclear Energy Systems (MiNES), Baltimore, MD, USA, Oct. 610, 2019.Hirst, C. A., M. Short, P. Cao, R. Connick, and R. S. Kemp, Developing a method to quantify radiation damage by measuring stored energy, 5th Nuclear Materials Conference, Seattle, WA, USA, Oct. 1418, 2018.31'