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![Lawrie project](/sites/default/files/styles/list_page_thumbnail/public/2023-10/nanoscale-quantum_1.png?h=2e70d3e9&itok=u30aOlxD)
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The overarching goal of this proposal is to understand and control disorder-induced changes in superconducting and topological states across atomic to mesoscopic length scales with quantum microscopies that will guide the development of emerging superconducting quantum devices.
![ECRP Brahlek 2023](/sites/default/files/styles/list_page_thumbnail/public/2023-08/ecrp_brahlek.png?h=6eb1d219&itok=dQf7zCES)
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The overarching goal of this project is to elucidate how interfaces and dimensionality affect chiral transport phenomena by targeted modification of the underlying many-body electronic, magnetic, and lattice interactions in heterostructured quantum materials.
![default image](/themes/custom/ornl/images/default-thumbnail.jpg)
The synthesis of the heaviest nuclei and studies of their properties expands our understanding of the extent and structure of the atomic and nuclear worlds. Recently, ORNL was recognized by the International Union of Pure and Applied Chemistry for contributions to the discovery of two new elements, tennessine (atomic number 117) and moscovium (atomic number 115).