Triple point fermions in a minimal symmorphic model

I. C. Fulga; Ady Stern

doi:10.1103/PhysRevB.95.241116

Triple point fermions in a minimal symmorphic model

I. C. Fulga, Ady Stern

Department of Condensed Matter Physics

Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

Gapless topological phases of matter may host emergent quasiparticle excitations which have no analog in quantum field theory. This is the case of so called triple point fermions (TPF), quasiparticle excitations protected by crystal symmetries, which show fermionic statistics but have an integer (pseudo)spin degree of freedom. TPFs have been predicted in certain three-dimensional nonsymmorphic crystals, where they are pinned to high symmetry points of the Brillouin zone. In this Rapid Communication, we introduce a minimal, three-band model which hosts TPFs protected only by the combination of a C4 rotation and an anticommuting mirror symmetry. Unlike current nonsymmorphic realizations, our model allows for TPFs which are anisotropic and can be created or annihilated pairwise. It provides a simple, numerically affordable platform for their study.

Original language	English
Article number	241116
Journal	Physical Review B
Volume	95
Issue number	24
DOIs	https://doi.org/10.1103/PhysRevB.95.241116
State	Published - 29 Jun 2017

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.95.241116

http://arxiv.org/abs/1702.03939License: Other

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title = "Triple point fermions in a minimal symmorphic model",

abstract = "Gapless topological phases of matter may host emergent quasiparticle excitations which have no analog in quantum field theory. This is the case of so called triple point fermions (TPF), quasiparticle excitations protected by crystal symmetries, which show fermionic statistics but have an integer (pseudo)spin degree of freedom. TPFs have been predicted in certain three-dimensional nonsymmorphic crystals, where they are pinned to high symmetry points of the Brillouin zone. In this Rapid Communication, we introduce a minimal, three-band model which hosts TPFs protected only by the combination of a C4 rotation and an anticommuting mirror symmetry. Unlike current nonsymmorphic realizations, our model allows for TPFs which are anisotropic and can be created or annihilated pairwise. It provides a simple, numerically affordable platform for their study.",

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N2 - Gapless topological phases of matter may host emergent quasiparticle excitations which have no analog in quantum field theory. This is the case of so called triple point fermions (TPF), quasiparticle excitations protected by crystal symmetries, which show fermionic statistics but have an integer (pseudo)spin degree of freedom. TPFs have been predicted in certain three-dimensional nonsymmorphic crystals, where they are pinned to high symmetry points of the Brillouin zone. In this Rapid Communication, we introduce a minimal, three-band model which hosts TPFs protected only by the combination of a C4 rotation and an anticommuting mirror symmetry. Unlike current nonsymmorphic realizations, our model allows for TPFs which are anisotropic and can be created or annihilated pairwise. It provides a simple, numerically affordable platform for their study.

AB - Gapless topological phases of matter may host emergent quasiparticle excitations which have no analog in quantum field theory. This is the case of so called triple point fermions (TPF), quasiparticle excitations protected by crystal symmetries, which show fermionic statistics but have an integer (pseudo)spin degree of freedom. TPFs have been predicted in certain three-dimensional nonsymmorphic crystals, where they are pinned to high symmetry points of the Brillouin zone. In this Rapid Communication, we introduce a minimal, three-band model which hosts TPFs protected only by the combination of a C4 rotation and an anticommuting mirror symmetry. Unlike current nonsymmorphic realizations, our model allows for TPFs which are anisotropic and can be created or annihilated pairwise. It provides a simple, numerically affordable platform for their study.

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M3 - مقالة

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Triple point fermions in a minimal symmorphic model

Abstract

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