フォロー
Moritz Hirschmann
Moritz Hirschmann
RIKEN Center for Emergent Matter Science (CEMS), Quantum Matter Research Team
確認したメール アドレス: riken.jp
タイトル
引用先
引用先
Topological quantum wires with balanced gain and loss
H Menke, MM Hirschmann
Physical Review B 95 (17), 174506, 2017
1202017
-symmetric non-Hermitian Dirac semimetals
WB Rui, MM Hirschmann, AP Schnyder
Physical Review B 100 (24), 245116, 2019
512019
Symmetry-enforced band crossings in tetragonal materials: Dirac and Weyl degeneracies on points, lines, and planes
MM Hirschmann, A Leonhardt, B Kilic, DH Fabini, AP Schnyder
Physical Review Materials 5 (5), 054202, 2021
392021
Symmetry-enforced topological nodal planes at the Fermi surface of a chiral magnet
MA Wilde, M Dodenhöft, A Niedermayr, A Bauer, MM Hirschmann, K Alpin, ...
Nature 594 (7863), 374-379, 2021
352021
Symmetry-enforced band crossings in trigonal materials: Accordion states and Weyl nodal lines
YH Chan, B Kilic, MM Hirschmann, CK Chiu, LM Schoop, DG Joshi, ...
Physical Review Materials 3 (12), 124204, 2019
312019
Symmetry-enforced topological band crossings in orthorhombic crystals: Classification and materials discovery
A Leonhardt, MM Hirschmann, N Heinsdorf, X Wu, DH Fabini, ...
Physical Review Materials 5 (12), 124202, 2021
232021
Higher-order Weyl superconductors with anisotropic Weyl-point connectivity
WB Rui, SB Zhang, MM Hirschmann, Z Zheng, AP Schnyder, B Trauzettel, ...
Physical Review B 103 (18), 184510, 2021
202021
Network of topological nodal planes, multifold degeneracies, and Weyl points in CoSi
N Huber, K Alpin, GL Causer, L Worch, A Bauer, G Benka, ...
Physical Review Letters 129 (2), 026401, 2022
162022
Intertwined Weyl phases emergent from higher-order topology and unconventional Weyl fermions via crystalline symmetry
WB Rui, Z Zheng, MM Hirschmann, SB Zhang, C Wang, ZD Wang
npj Quantum Materials 7 (1), 15, 2022
9*2022
Symmetry-enforced double Weyl points, multiband quantum geometry, and singular flat bands of doping-induced states at the Fermi level
MM Hirschmann, J Mitscherling
Physical Review Materials 8 (1), 014201, 2024
6*2024
Fundamental laws of chiral band crossings: Local constraints, global constraints, and topological phase diagrams
K Alpin, MM Hirschmann, N Heinsdorf, A Leonhardt, WY Yau, X Wu, ...
Physical Review Research 5 (4), 043165, 2023
22023
Non-coplanar helimagnetism in the layered van-der-Waals metal DyTe
S Akatsuka, S Esser, S Gao, S Aji, Y Onuki, T Arima, T Nakajima, ...
arXiv preprint arXiv:2306.04854, 2023
12023
Creating and controlling Dirac fermions, Weyl fermions, and nodal lines in the magnetic antiperovskite
MM Hirschmann, AS Gibbs, F Orlandi, D Khalyavin, P Manuel, ...
Physical Review Materials 6 (11), 114202, 2022
12022
Topological band crossings in metals, magnets, and non-Hermitian systems
MM Hirschmann
12021
Lattice-commensurate skyrmion texture in a centrosymmetric breathing kagome magnet
M Hirschberger, BG Szigeti, M Hemmida, MM Hirschmann, S Esser, ...
arXiv preprint arXiv:2403.05082, 2024
2024
Gapped nodal planes drive a large topological Nernst effect in a chiral lattice antiferromagnet
ND Khanh, S Minami, M Hirschmann, T Nomoto, MC Jiang, R Yamada, ...
arXiv preprint arXiv:2403.01113, 2024
2024
Correlation induced magnetic topological phases in the mixed-valence compound
H Liu, MM Hirschmann, GA Sawatzky, G Khaliullin, AP Schnyder
Physical Review Research 5 (4), L042028, 2023
2023
Magnetic Properties and Quantum Anomalies of Dirac Materials
MM Hirschmann
Universität Stuttgart, 2016
2016
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論文 1–18