Electronic and magnetic properties in barium iridium oxides
ORAL
Abstract
The strongly spin orbit coupled Jeff = 1/2 spin residing on various lattice motifs are promising playgrounds for realizing assorted unusual ground states, such as Kitaev quantum spin liquid in frustrated Kagome lattice, proximity to unconventional superconducting state in layered square lattice. The recently proposed exotic quantum liquid state in facing sharing spin chain Ba4Ir3O10 might offer another platform for novel frustration. Here we introduce detailed experimental studies on those spin chain barium iridium oxides, which might be another intriguing system for engineering unusual electronic and magnetic ground states.
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Presenters
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Xiang Chen
Lawrence Berkeley National Laboratory, Physics, University of California at Berkeley, University of California, Santa Barbara
Authors
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Xiang Chen
Lawrence Berkeley National Laboratory, Physics, University of California at Berkeley, University of California, Santa Barbara
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Dongsheng Yuan
Lawrence Berkeley National Laboratory
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Edith Bourret-Courchesne
Lawrence Berkeley National Laboratory
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Robert J Birgeneau
University of California, Berkeley, Physics, University of California at Berkeley, Physics, University of California, Berkeley, Department of Physics, University of California, Berkeley