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Importance of Cation Disorder in Magnetocalorics Casey W. Miller, University of South Florida, DMR 0953733.
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Importance of Cation Disorder in MagnetocaloricsCasey W. Miller, University of South Florida, DMR 0953733 The magnetocaloric effect (MCE) holds promise for developing highly efficient magnetic refrigeration. We are using nanoscience to explore magnetic materials that exhibit large MCE in bulk form. This bottom up approach may enable the design of materials with enhanced or tunable MCE. Here, we have examined the MCE in 30 nm thick films of the metallic oxide La0.56Sr0.44MnO3 prepared two ways: a random alloy via codeposition of La and Sr, and a superlattice with alternating La and Sr layers. We find that the MCE properties (entropy change and relative cooling power) of the alloy are superior to those of the superlattice. This observation may enable optimization of the MCE by maximizing cation disorder. Collaborator: Dr. Tiffany Santos, Argonne National Lab
Importance of Cation Disorder in Magnetocalorics Casey W. Miller, University of South Florida, DMR 0953733 Random Websites Internet articles/eBooks Peer Reviewed Articles Wikipedia Physical Books Inspiring future scientists “Literature Guide” develops undergrads’ citation habits • Communicating with Peter Muhoro of APS to make USF Physics a Partner Institution for APS Minority Bridge Program. • APS March Meeting talk and Colloquium at Univ. Texas at Austin promoting “A student's guide to searching the literature using online databases,” and reporting impact of on undergraduates’ citation habits. • Lab tours for middle schoolers. • Students perform measurements at Argonne National Lab, new partnership for USF Physics. • Invited to organize 56th Magnetism and Magnetic Materials Conference as member of sub-committee on magnetocaloric materials. Before After