Title Probing unconventional transport regimes in delafossite metals / Philippa H. McGuinness

Published Cham, Switzerland : Springer, 2022

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Description 1 online resource (xvii, 140 pages) : illustrations (some color) Series Springer theses, 2190-5061 Springer theses, 2190-5061 Contents Introduction -- The Ultrapure Delafossite Metals PdCoO2 and PtCoO2 -- Creation and Measurement of Microstructures of Ultrapure Materials -- High Energy Electron Irradiation of Delafossite Metals -- Ballistic Transport in Square Junctions of Delafossite Metals -- Conclusions and outlook Summary This thesis describes in-depth studies of the remarkable electronic transport within the ultrahigh conductivity delafossite metals PtCoO_2 and PdCoO_2 using the tool of focused ion beam (FIB) microstucturing. Despite being first synthesised over 50 years ago, important questions remain regarding both the origin of the unusually high conductivity of these compounds and the consequences of their unique properties for unconventional electronic transport, such as that within the ballistic regime. The thesis explores both these areas. High-energy electron irradiation is used to examine the effects of deliberately introducing point defects into PdCoO_2 and PtCoO_2, demonstrating that the extremely low resistivity of these materials stems from an extreme purity as high as 1 defect in 120,000 atoms, rather than a novel scattering suppression mechanism. In addition, studies of the electronic transport in micron-scale squares of these metals show that their broadly hexagonal Fermi surfaces lead not only to long range ballistic behaviour but novel ballistic regime phenomena which cannot be observed in materials with a higher-symmetry Fermi surface Notes "Doctoral Thesis accepted by the University of St Andrews, St Andrews, Scotland." Bibliography Includes bibliographical references Notes Online resource; title from PDF title page (SpringerLink, viewed October 6, 2022) Subject Copper alloys -- Microstructure Copper alloys -- Electric properties Nanostructured materials. Nanostructured materials Form Electronic book ISBN 9783031142444 3031142446 9788303114242 8303114247

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