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Alexey A. Soluyanov
Researcher at University of Zurich
Publications - 71
Citations - 8053
Alexey A. Soluyanov is an academic researcher from University of Zurich. The author has contributed to research in topics: Topological insulator & Weyl semimetal. The author has an hindex of 26, co-authored 69 publications receiving 6113 citations. Previous affiliations of Alexey A. Soluyanov include Saint Petersburg State University & Rutgers University.
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Type-II Weyl semimetals.
Alexey A. Soluyanov,Dominik Gresch,Zhijun Wang,QuanSheng Wu,Matthias Troyer,Xi Dai,B. Andrei Bernevig +6 more
TL;DR: This work proposes the existence of a previously overlooked type of Weyl fermion that emerges at the boundary between electron and hole pockets in a new phase of matter and discovers a type-II Weyl point, which is still a protected crossing, but appears at the contact of electron and Hole pockets in type- II Weyl semimetals.
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WannierTools: An open-source software package for novel topological materials
QuanSheng Wu,Shengnan Zhang,Hai-Feng Song,Matthias Troyer,Alexey A. Soluyanov,Alexey A. Soluyanov +5 more
TL;DR: This code works in the tight-binding framework, which can be generated by another software package Wannier90 Mostofi et al. (2008), and can help to classify the topological phase of a given materials by calculating the Wilson loop, and get the surface state spectrum.
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Nodal-chain metals
Tomáš Bzdušek,QuanSheng Wu,Andreas Rüegg,Manfred Sigrist,Alexey A. Soluyanov,Alexey A. Soluyanov +5 more
TL;DR: It is argued that the presence of the nodal-chain fermions will result in anomalous magnetotransport properties, distinct from those of materials exhibiting previously known excitations.
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Computing topological invariants without inversion symmetry
TL;DR: In this paper, the weak and strong topological indices in noncentrosymmetric time-reversal invariant insulators are calculated in 2D and 3D, respectively.
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MoTe 2 : A Type-II Weyl Topological Metal
Zhijun Wang,Dominik Gresch,Alexey A. Soluyanov,Weiwei Xie,Satya Kushwaha,Xi Dai,Matthias Troyer,Robert J. Cava,B. Andrei Bernevig +8 more
TL;DR: With no strain, the number of observable surface Fermi arcs in this material is 2-the smallest number of arcs consistent with time-reversal symmetry, opening a wide range of possible experimental realizations of different topological semimetal phases.