H
Hsin Lin
Researcher at Academia Sinica
Publications - 456
Citations - 44819
Hsin Lin is an academic researcher from Academia Sinica. The author has contributed to research in topics: Topological insulator & Weyl semimetal. The author has an hindex of 84, co-authored 444 publications receiving 36929 citations. Previous affiliations of Hsin Lin include National Tsing Hua University & University of California, Los Angeles.
Papers
More filters
Journal ArticleDOI
Four-fold structural distortion in quasi-ID organic ferromagnets
TL;DR: In this article, the Peierls distortion in a conjugated carbon chain with side radicals, which contains unpaired electrons, was investigated based on a model for quasi-one-dimensional organic polymer ferromagnets.
Proceedings ArticleDOI
Influence of discretization model and evaluation method on torque prediction in switched reluctance motor
Journal ArticleDOI
Topologically distinct Weyl fermion pairs.
TL;DR: In this article, it was shown that the magnetic tunneling does not always expel Landau levels from zero energy because the number of zero-energy modes is protected by the vorticity of the Weyl nodes, instead of the chirality.
Posted Content
Room-temperature quantum spin Hall edge state in a higher-order topological insulator Bi$_4$Br$_4$
Nana Shumiya,Shafayat Hossain,Jiaxin Yin,Zhiwei Wang,Maksim Litskevich,Chiho Yoon,Yongkai Li,Ying Yang,Yu-Xiao Jiang,Guangming Cheng,Yen-Chuan Lin,Qi Zhang,Zijia Cheng,Tyler A. Cochran,Daniel Multer,Xian P. Yang,Brian Casas,Tay-Rong Chang,Titus Neupert,Zhujun Yuan,Shuang Jia,Hsin Lin,Nan Yao,Luis Balicas,Fan Zhang,Yugui Yao,M. Zahid Hasan +26 more
TL;DR: In this article, the authors used scanning tunneling microscopy to visualize a quantum spin Hall edge state on the surface of the higher-order topological insulator Bi4Br4.
Journal ArticleDOI
Solitons in quasi-one-dimensional π-conjugated organic ferromagnets
TL;DR: In this article, a quasi-one-dimensional π-conjugated organic polymer ferromagnets are studied self-consistently, and it is shown that due to the electron-phonon interaction and the Hubbard energy, there exist domain wall solitons describing the displacement of lattices along the main chain, and spin soliton describing the localization of spin at side radicals.