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

Coupled
CDAC’s key strategy to investigating the response of materials to the coupled extreme conditions of P, T, and ion irradiation.

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]