Emergent Honeycomb Lattice in LiZn[subscript 2]Mo[subscript 3]O[subscript 8]

Emergent Honeycomb Lattice in LiZn[subscript 2]Mo[subscript 3]O[subscript 8]

We introduce the idea of emergent lattices, where a simple lattice decouples into two weakly coupled lattices as a way to stabilize spin liquids. In LiZn[subscript 2]Mo[subscript 3]O[subscript 8], the disappearance of 2/3 of the spins at low temperatures suggests that its triangular lattice decouple...

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Bibliographic Details
Main Authors: Flint, Rebecca (Contributor), Lee, Patrick A. (Contributor)
Other Authors: Massachusetts Institute of Technology. Department of Physics (Contributor)
Format: Article
Language:English
Published: American Physical Society, 2014-02-14T17:46:28Z.
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Summary:We introduce the idea of emergent lattices, where a simple lattice decouples into two weakly coupled lattices as a way to stabilize spin liquids. In LiZn[subscript 2]Mo[subscript 3]O[subscript 8], the disappearance of 2/3 of the spins at low temperatures suggests that its triangular lattice decouples into an emergent honeycomb lattice weakly coupled to the remaining spins, and we suggest several ways to test this proposal. We show that these orphan spins act to stabilize the spin liquid in the J[subscript 1]-J[subscript 2] honeycomb model and also discuss a possible 3D analogue, Ba[subscript 2]MoYO[subscript 6] that may form a "depleted fcc lattice."
Simons Foundation
National Science Foundation (U.S.) (NSF-DMR 1104498)

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