Moritz Hirschmann

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Andreas SchnyderMax Planck Institute for Solid State Research, StuttgartEmail verificata su fkf.mpg.de
Wenbin RuiThe University of Hong KongEmail verificata su hku.hk
Doug FabiniMIT (previously MPI FKF, UCSB)Email verificata su mit.edu
Christian PfleidererProfessor of Experimental Physics, Technische Universität MünchenEmail verificata su frm2.tum.de
Henri MenkeMax Planck Computing and Data FacilityEmail verificata su mpcdf.mpg.de
Xianxin WuInstitute of Theoretical Physics, Chinese Academy of SciencesEmail verificata su itp.ac.cn
Niclas HeinsdorfJoint PhD Student, Max Planck Institute for Solid State Research and the University of British ColumbiaEmail verificata su fkf.mpg.de
Max HirschbergerDepartment of Applied Physics, The University of Tokyo; RIKEN CEMSEmail verificata su ap.t.u-tokyo.ac.jp
Ching-Kai ChiuSenior Research Scientist, RIKEN iTHEMSEmail verificata su riken.jp
Darshan G. JoshiAssistant Professor (Reader-F), TIFR-HyderabadEmail verificata su tifrh.res.in
Johannes MitscherlingMax Planck Institute for the Physics of Complex Systems, (Email: mitscherling at pks dot mpg dot de)Email verificata su pks.mpg.de
Sebastian EsserThe University of Tokyo - Department of Applied PhysicsEmail verificata su g.ecc.u-tokyo.ac.jp
Ming-Chun JiangCenter of Emergent Matter Science, RIKENEmail verificata su riken.jp
Ryotaro AritaDepartment of Physics, University of TokyoEmail verificata su phys.s.u-tokyo.ac.jp
N. D. KhanhThe University of TokyoEmail verificata su ap.t.u-tokyo.ac.jp
HIDENORI TAKAGIDirector, Max Planck Institute for Solid State Research, and AvH Professor, University of StuttgartEmail verificata su fkf.mpg.de
Huimei LiuMPI, StuttgartEmail verificata su fkf.mpg.de

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Moritz Hirschmann

RIKEN Center for Emergent Matter Science (CEMS), Quantum Matter Research Team

Email verificata su riken.jp

Topological States of Matter Topological Insulators Topological Semimetals Magnetism Non


Titolo Ordina per citazioni Ordina per anno Ordina per titolo	Citata da Citata da	Anno
Topological quantum wires with balanced gain and loss H Menke, MM Hirschmann Physical Review B 95 (17), 174506, 2017	123	2017
-symmetric non-Hermitian Dirac semimetals WB Rui, MM Hirschmann, AP Schnyder Physical Review B 100 (24), 245116, 2019	58	2019
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	47	2021
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	43	2021
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	35	2019
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	30	2021
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	21	2021
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	20	2022
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	10*	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	8*	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	7	2023
Non-coplanar helimagnetism in the layered van-der-Waals metal DyTe₃ S Akatsuka, S Esser, S Okumura, R Yambe, R Yamada, MM Hirschmann, ... Nature Communications 15 (1), 4291, 2024	6	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	3	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	2	2023
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	2	2022
Topological band crossings in metals, magnets, and non-Hermitian systems MM Hirschmann	2	2021
Weak Supertopology K Parshukov, MM Hirschmann, AP Schnyder arXiv preprint arXiv:2408.00042, 2024		2024
Lattice-commensurate skyrmion texture in a centrosymmetric breathing kagome magnet M Hirschberger, BG Szigeti, M Hemmida, MM Hirschmann, S Esser, ... npj Quantum Materials 9 (1), 45, 2024		2024
Magnetic Properties and Quantum Anomalies of Dirac Materials MM Hirschmann Universität Stuttgart, 2016		2016

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