Hung-Ju Tien
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Explore the profile of Hung-Ju Tien including associated specialties, affiliations and a list of published articles.
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11
Citations
128
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Recent Articles
1.
Lu Q, Reddy P, Jeon H, Mazza A, Brahlek M, Wu W, et al.
Nat Commun
. 2024 Jul;
15(1):6001.
PMID: 39019865
A two-dimensional (2D) Weyl semimetal, akin to a spinful variant of graphene, represents a topological matter characterized by Weyl fermion-like quasiparticles in low dimensions. The spinful linear band structure in...
2.
Gao A, Liu Y, Qiu J, Ghosh B, Trevisan T, Onishi Y, et al.
Science
. 2023 Jun;
381(6654):181-186.
PMID: 37319246
Quantum geometry in condensed-matter physics has two components: the real part quantum metric and the imaginary part Berry curvature. Whereas the effects of Berry curvature have been observed through phenomena...
3.
Cheng Z, Belopolski I, Tien H, Cochran T, Yang X, Ma W, et al.
Adv Mater
. 2022 Nov;
35(3):e2205927.
PMID: 36385535
Kagome magnets provide a fascinating platform for a plethora of topological quantum phenomena, in which the delicate interplay between frustrated crystal structure, magnetization, and spin-orbit coupling (SOC) can engender highly...
4.
Xu X, Yin J, Ma W, Tien H, Qiang X, Reddy P, et al.
Nat Commun
. 2022 Mar;
13(1):1197.
PMID: 35256604
In ordinary materials, electrons conduct both electricity and heat, where their charge-entropy relations observe the Mott formula and the Wiedemann-Franz law. In topological quantum materials, the transverse motion of relativistic...
5.
Pierantozzi G, De Vita A, Bigi C, Gui X, Tien H, Mondal D, et al.
Proc Natl Acad Sci U S A
. 2022 Jan;
119(4).
PMID: 35042814
We unravel the interplay of topological properties and the layered (anti)ferromagnetic ordering in EuSnP, using spin and chemical selective electron and X-ray spectroscopies supported by first-principle calculations. We reveal the...
6.
Gao A, Liu Y, Hu C, Qiu J, Tzschaschel C, Ghosh B, et al.
Nature
. 2021 Jul;
595(7868):521-525.
PMID: 34290425
Whereas ferromagnets have been known and used for millennia, antiferromagnets were only discovered in the 1930s. At large scale, because of the absence of global magnetization, antiferromagnets may seem to...
7.
Zhang S, Yin J, Ikhlas M, Tien H, Wang R, Shumiya N, et al.
Phys Rev Lett
. 2020 Aug;
125(4):046401.
PMID: 32794798
We use scanning tunneling microscopy to elucidate the atomically resolved electronic structure in the strongly correlated kagome Weyl antiferromagnet Mn_{3}Sn. In stark contrast to its broad single-particle electronic structure, we...
8.
Yin J, Shumiya N, Mardanya S, Wang Q, Zhang S, Tien H, et al.
Nat Commun
. 2020 Aug;
11(1):4003.
PMID: 32778651
Kagome-nets, appearing in electronic, photonic and cold-atom systems, host frustrated fermionic and bosonic excitations. However, it is rare to find a system to study their fermion-boson many-body interplay. Here we...
9.
Hu C, Ding L, Gordon K, Ghosh B, Tien H, Li H, et al.
Sci Adv
. 2020 Aug;
6(30):eaba4275.
PMID: 32743072
Novel magnetic topological materials pave the way for studying the interplay between band topology and magnetism. However, an intrinsically ferromagnetic topological material with only topological bands at the charge neutrality...
10.
Yin J, Ma W, Cochran T, Xu X, Zhang S, Tien H, et al.
Nature
. 2020 Jul;
583(7817):533-536.
PMID: 32699400
The quantum-level interplay between geometry, topology and correlation is at the forefront of fundamental physics. Kagome magnets are predicted to support intrinsic Chern quantum phases owing to their unusual lattice...