III. Multiple Extremes
GOAL: To advance our knowledge of the behavior of materials exposed to multiple extreme environments, including intense particle and electromagnetic fields, to enhance material performance and to create new materials.
REPRESENTATIVE PUBLICATIONS: Heading link
1668. Cureton, W. F., C. L. Tracy and M. Lang, Review of swift heavy ion irradiation effects in CeO2. Quantum Beam Science 5, 19 (2021). [OSTI ID 1813554]
1687. Grockowiak, A. D., M. Ahart, T. Helm, W. A. Coniglio, R. Kumar, K. Glazyrin, G. Garbarino, Y. Meng, M. Oliff, V. Williams, N. W. Ashcroft, R. J. Hemley, M. Somayazulu, and S. W. Tozer, Hot hydride superconductivity above 550 K. Frontiers in Electronic Materials: Superconductivity 2, 837561 (2022). [OSTI ID 1862863]
1703. Overstreet, C., J. Cooper, E. O’Quinn, W. Cureton, R. Palomares, J. Leys, G. Deissmann, S. Neumeier, C. Chen, and M. Lang, Structural stability of REE-PO4 (REE=Sm,Tb) under swift heavy ion irradiation. Nuclear Instruments and Methods in Physics Research B 527, 34-39 (2022). [OSTI ID 1901277]