About
Research
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Novel Magnets
FINDMAGSYM
MAGIRREP
Preprints
H.Z.X. Chen
,
Linding Yuan
,
W.H. Liu
,
L.W. Wang
,
Jun-Wei Luo
,
Zhi Wang
(2026).
A route to non-relativistic altermagnetic spin splitting via ultrafast light
. Preprint (2026).
arXiv
J. Kang
,
M. Hamdi
,
S.K. Cheung
,
Linding Yuan
,
et al.
(2025).
Octupole-driven spin-transfer torque switching of all-antiferromagnetic tunnel junctions
. Preprint (2025).
arXiv
J. Fowlie
,
J. Li
,
D. Puggioni
,
L. Barreto
,
Linding Yuan
,
James M. Rondinelli
,
H.Y. Hwang
(2025).
Biaxial strain control of helimagnetism via chemical expansion in thin film SrFeO₃
. Preprint (2025).
arXiv
Peer-reviewed
Reynel Cárdenas
,
Valeria Quintana
,
Linding Yuan
,
Carlos Mera Acosta
(2026).
Emergence of p-wave collinear magnetism in antiferromagnets with reflection-asymmetric magnetic motifs
.
Phys. Rev. B
(2026).
DOI
Jia-Xin Xiong
,
Xiuwen Zhang
,
Linding Yuan
,
Alex Zunger
(2026).
Matter with apparent and hidden spin physics
.
Matter
(2026).
DOI
arXiv
Tongxie Zhang
,
Linding Yuan
,
James M. Rondinelli
,
H. A. Fertig
,
Shixiong Zhang
(2026).
Tunable hidden non-relativistic spin splitting in layered Ruddlesden–Popper oxides
.
Nano Lett.
(2026).
DOI
Siddhartha S. Nathan
,
Danilo Puggioni
,
Linding Yuan
,
James M. Rondinelli
(2026).
Anion correlation induced nonrelativistic spin splitting in rutile antiferromagnets
.
Phys. Rev. Materials
(2026).
DOI
arXiv
Sara M. Baksa
,
Linding Yuan
,
Stephen D. Wilson
,
James M. Rondinelli
(2026).
Ferroelectricity in antiferromagnetic wurtzite nitrides
.
Adv. Funct. Mater.
(2026).
DOI
arXiv
Xiuwen Zhang
,
Jia-Xin Xiong
,
Linding Yuan
,
Alex Zunger
(2025).
Prototypes of nonrelativistic spin splitting and polarization in symmetry-broken antiferromagnets
.
Phys. Rev. X
(2025).
DOI
Linus Kautzsch
,
Alexandru B. Georgescu
,
Linding Yuan
,
Keith M. Taddei
,
Aiden Reilly
,
Ram Seshadri
,
James M. Rondinelli
,
Stephen D. Wilson
(2025).
Spin chains with highly quantum character through strong covalency in Ca₃CrN₃
.
JACS
(2025).
DOI
Yea-Shine Lee
,
Roberto dos Reis
,
Linding Yuan
,
Zhi Li
,
Elizabeth Griffin
,
Chris Wolverton
,
James M. Rondinelli
,
Vinayak P. Dravid
(2024).
Identifying spectral descriptors for protonation in BaZr₀.₈Y₀.₂O₃₋ₓ with electron energy loss spectroscopy
.
Microsc. Microanal.
(2024).
DOI
Linding Yuan
,
Alexandru B. Georgescu
,
James M. Rondinelli
(2024).
Non-relativistic spin splitting at the Brillouin Zone center in compensated magnets
.
Phys. Rev. Lett.
(2024).
DOI
Linding Yuan
,
Shu-Shen Li
,
Jun-Wei Luo
(2024).
Direct bandgap emission from strain-doped germanium
.
Nat. Commun.
(2024).
DOI
Linding Yuan
,
Alex Zunger
(2023).
Degeneracy removal of spin bands in antiferromagnets with non-interconvertible spin motif pair
.
Adv. Mater.
(2023).
DOI
Linding Yuan
,
Xiuwen Zhang
,
Carlos Mera Acosta
,
Alex Zunger
(2023).
Uncovering hidden spin polarization of energy bands in antiferromagnets
.
Nat. Commun.
(2023).
DOI
Linding Yuan
,
Zhi Wang
,
Jun-Wei Luo
,
Alex Zunger
(2021).
Strong influence of nonmagnetic ligands on the momentum-dependent spin splitting in antiferromagnets
.
Phys. Rev. B
(2021).
DOI
arXiv
Carlos Mera Acosta
,
Linding Yuan
,
Gustavo M. Dalpian
,
Alex Zunger
(2021).
Different shapes of spin textures as a journey through the Brillouin zone
.
Phys. Rev. B
(2021).
DOI
arXiv
Linding Yuan
,
Zhi Wang
,
Jun-Wei Luo
,
Alex Zunger
(2021).
Prediction of low-Z collinear and noncollinear antiferromagnetic compounds having momentum-dependent spin splitting even without spin-orbit coupling
.
Phys. Rev. Materials
(2021).
DOI
Linding Yuan
,
Zhi Wang
,
Jun-Wei Luo
,
Emmanuel I. Rashba
,
Alex Zunger
(2020).
Giant momentum-dependent spin splitting in centrosymmetric low-Z antiferromagnets
.
Phys. Rev. B
(2020).
APS Physics Viewpoint
DOI
Linding Yuan
,
Qihang Liu
,
Xiuwen Zhang
,
Jun-Wei Luo
,
Shu-Shen Li
,
Alex Zunger
(2019).
Uncovering and tailoring hidden Rashba spin-orbit splitting in centrosymmetric crystals
.
Nat. Commun.
(2019).
DOI
Linding Yuan
,
Hui-Xiong Deng
,
Shu-Shen Li
,
Su-Huai Wei
,
Jun-Wei Luo
(2018).
Unified theory of direct or indirect band-gap nature of conventional semiconductors
.
Phys. Rev. B
(2018).
DOI
arXiv