Lucile Savary
Quantum Loop States in Spin-Orbital Models on the Honeycomb Lattice
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Facts and FAQs
- This model is fully realistic. In the paper, we provide a detailed list of requirements for a possible experimental realization.
- The requirements are: two electrons in degenerate t2g orbitals (which implies cubic symmetry and no spin-orbit coupling) and large Hund's coupling.
Check it out!
- arXiv: arXiv: 1511.01505 (5 Nov. 2015)
- accepted by Nature Communications (8 Mar. 2017)
- referee reports (published in Nat. Commun. along with manuscript): pdf
- talk at the KITP LSmatter workshop on spin-orbit coupling: pdf, video (18 Sept. 2015)
- invited talk at the "Conference on Frustrated Magnetism and Topology," Kloster Nimbschen (Sept. 2016)
- invited talk at the Highly Frustrated Magnetism 2016 Conference, Taipei (Sept. 2016)
- invited talk at the "New Quantum Phases with Frustration and Entanglement" workshop, Krakow (June 2016)
- invited talk at the MPI-PKS conference "Topological Phenomena in Novel Quantum Materials" (29 Feb. 2016)
- poster at the Moore Meeting, Aptos, CA (Aug. 2016)
- poster at the topoquant16 conference, KITP, Santa Barbara (Oct. 2016)
- invited lecture at Case Western Reserve University, Cleveland, OH (Jan. 2017)
- seminar in Takagi Abteilung, MPI Stuttgart: pdf (18 Apr. 2016)
- condensed matter seminar at the University of Utah: pdf (2016)
- condensed matter seminar at Caltech: pdf (2 Feb. 2016)
- condensed matter theory seminar at MIT: pdf (19 Jan. 2016)
- condensed matter seminar at Boston College: pdf (10 Nov. 2015)
- talk at Harvard's Kids' seminar: pdf (3 Nov. 2015)
@article{,
author = {Savary, L.},
title = {Quantum Loop States in Spin-Orbital Models on the Honeycomb Lattice},
year = {2017},
journal = {Nat. Commun.},
volume = {},
pages = {},
publisher = {Nature Publishing Group},
doi = {},
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} @article{arXiv:1511.01505,
author = {Savary, L.},
title = {Quantum Loop States in Spin-Orbital Models on the Honeycomb Lattice},
year = {2015},
archivePrefix = {arXiv},
eprint = {1511.01505},
primaryClass = {cond-mat.str-el},
url = {http://arxiv.org/abs/1511.01505},
notes = {}
}
author = {Savary, L.},
title = {Quantum Loop States in Spin-Orbital Models on the Honeycomb Lattice},
year = {2017},
journal = {Nat. Commun.},
volume = {},
pages = {},
publisher = {Nature Publishing Group},
doi = {},
url = {},
notes = {}
} @article{arXiv:1511.01505,
author = {Savary, L.},
title = {Quantum Loop States in Spin-Orbital Models on the Honeycomb Lattice},
year = {2015},
archivePrefix = {arXiv},
eprint = {1511.01505},
primaryClass = {cond-mat.str-el},
url = {http://arxiv.org/abs/1511.01505},
notes = {}
}