Nodal Line Spin-Gapless Semimetals and High-Quality Candidate Materials

Run Wu Zhang; Zeying Zhang; Cheng Cheng Liu; Yugui Yao

doi:10.1103/PhysRevLett.124.016402

Nodal Line Spin-Gapless Semimetals and High-Quality Candidate Materials

Run Wu Zhang^*, Zeying Zhang, Cheng Cheng Liu, Yugui Yao

^*Corresponding author for this work

School of Physics

Beijing Institute of Technology

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

50 Citations (Scopus)

Abstract

Spin-gapless semimetals (SGSMs), which generate 100% spin polarization, are viewed as promising semi-half-metals in spintronics with high speed and low consumption. We propose and characterize a new Z2 class of topological nodal line (TNL) in SGSMs. The proposed TNLSGSMs are protected by space-time inversion symmetry or glide mirror symmetry with two-dimensional (2D) fully spin-polarized nearly flat surface states. Based on first-principles calculations and effective model analysis, a series of high-quality materials with R3c and R3c space groups are predicted to realize such TNLSGSMs (chainlike). The 2D fully spin-polarized nearly flat surface states may provide a route to achieving equal spin pairing topological superconductivity as well as topological catalysts.

Original language	English
Article number	016402
Journal	Physical Review Letters
Volume	124
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.124.016402
Publication status	Published - 10 Jan 2020

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abstract = "Spin-gapless semimetals (SGSMs), which generate 100% spin polarization, are viewed as promising semi-half-metals in spintronics with high speed and low consumption. We propose and characterize a new Z2 class of topological nodal line (TNL) in SGSMs. The proposed TNLSGSMs are protected by space-time inversion symmetry or glide mirror symmetry with two-dimensional (2D) fully spin-polarized nearly flat surface states. Based on first-principles calculations and effective model analysis, a series of high-quality materials with R3c and R3c space groups are predicted to realize such TNLSGSMs (chainlike). The 2D fully spin-polarized nearly flat surface states may provide a route to achieving equal spin pairing topological superconductivity as well as topological catalysts.",

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Nodal Line Spin-Gapless Semimetals and High-Quality Candidate Materials

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