Publikationen der Arbeitsgruppe Quantum Design
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"Edge-selective extremal damping from topological heritage of dissipative Chern insulators",
S. Hegde, T. Ehmcke und T. Meng,
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"Black hole mirages: electron lensing and Berry curvature effects in inhomogeneously tilted Weyl semimetals",
A. Haller, S. Hegde, C. Xu, C. De Beule, T. Schmidt und T. Meng,
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"Engineering a pure Dirac regime in ZrTe5",
J. I. Facio, E. Nocerino, I. C. Fulga, R. Wawrzynczak, J. Brown, G. Gu, Q. Li, M. Mansson, Y. Sassa, O. Ivashko, M. v. Zimmermann, F. Mende, J. Gooth, S. Galeski, J. van den Brink und T. Meng,
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"Quantum-Hall physics and three dimensions",
J. Gooth, S. Galeski und T. Meng,
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"Gross-Neveu-Heisenberg criticality from 2+ε expansion",
K. Ladovrechis, S. Ray, T. Meng und L. Janssen,
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"Signatures of a magnetic-field-induced Lifshitz transition in the ultra-quantum limit of the topological semimetal ZrTe5",
S. Galeski, H. F. Legg, R. Wawrzynczak, T. Förster, S. Zherlitsyn, D. Gorbunov, M. Uhlarz, P. M. Lozano, Q. Li, G. D. Gu, C. Felser, J. Wosnitza, T. Meng und J. Gooth,
Nature Communications 13, 7418 (2022) oder arXiv:2204.11993.
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"Renormalization approach to bound states",
S. Sykora und T. Meng,
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"Steering Majorana braiding via skyrmion-vortex pairs: a scalable platform",
J. Nothhelfer, S. A. Díaz, S. Kessler, T. Meng, M. Rizzi, K. M. D. Hals und K. Everschor-Sitte,
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"Hawking fragmentation and Hawking attenuation in Weyl semimetals",
D. Sabsovich, P. Wunderlich, V. Fleurov, D. I. Pikulin, R. Ilan und T. Meng,
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"Propagation of longitudinal acoustic phonons in ZrTe5 exposed to a quantizing magnetic field",
T. Ehmcke, S. Galeski, D. Gorbunov, S. Zherlitsyn, J. Wosnitza, J. Gooth und T. Meng,
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"Artificial event horizons in Weyl semimetal heterostructures and their non-equilibrium signatures",
C. De Beule, S. Groenendijk, T. Meng und T. L. Schmidt,
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"Competing magnetic orders and multipolar Weyl fermions in 227 pyrochlore iridates",
K. Ladovrechis, T. Meng und B. Roy,
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"Origin of the quasi-quantized Hall effect in ZrTe5",
S. Galeski, T. Ehmcke, R. Wawrzynczak, P. Mercado Lozano, K. Cho, A. Sharma, S. Das, F. Küster, P. Sessi, M. Brando, R. Küchler, A. Markou, M. König, P. Swekis, C. Felser, Y. Sassa, Q. Li, G. Gu, M. Zimmermann, O. Ivashko, D. I. Gorbunov, S. Zherlitsyn, T. Förster, S. Parkin, J. Wosnitza, T. Meng und J. Gooth,
Nature Communications 12, 3197 (2021) oder arXiv:2005.12996.
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"Universal Hall conductance scaling in non-Hermitian Chern insulators",
S. Groenendijk, T. L. Schmidt und T. Meng,
- "Unconventional Hall response in the quantum limit of HfTe5",
S. Galeski, X. Zhao, R. Wawrzynczak, T. Meng, T. Förster, P. M. Lozano, S. Honnali, N. Lamba, T. Ehmcke, A. Markou, Q. Li, G. Gu, W. Zhu, J. Wosnitza, C. Felser, G. F. Chen und J. Gooth,
Nature Communications 11, 5926 (2020) oder arXiv:2003.07213. - "Pseudo-field effects in type II semimetals: new probes for over-tilted Weyl cones",
D. Sabsovich, T. Meng, D. I. Pikulin, R. Queiroz und R. Ilan,
J. Phys.: Condens. Matter 32, 484002 (2020) oder arXiv:2003.05316. - "Bosonization in 2+1 dimensions via Chern-Simons bosonic particle-vortex duality",
O. Türker, J. van den Brink, T. Meng und F. S. Nogueira,
Phys. Rev. D 102, 034506 (2020) oder arXiv:2004.10789. - "Negative Longitudinal Magnetoconductance at Weak Fields in Weyl Semimetals",
A. Knoll, C. Timm und T. Meng,
Phys. Rev. B 101, 201402(R) (2020) oder arXiv:1912.07852. - "Microscopic theory of fractional excitations in gapless bilayer quantum Hall states: semi-quantized quantum Hall states",
O. Türker und T. Meng,
SciPost Phys. 8, 031 (2020) oder arXiv:1910.10626. - "Coupled-wire constructions: a Luttinger liquid approach to topology",
T. Meng,
Eur. Phys. J. Special Topics 229, 527 (2020) oder arXiv:1906.09771. - "Exactly soluble model for a fractionalized Weyl semimetal",
F. Hotz, A. Tiwari, O. Türker, T. Meng, A. Stern, M. Koch-Janusz und T. Neupert,
Phys. Rev. Research 1, 033029 (2019) oder arXiv:1907.07695. - "Finite temperature effects on Majorana bound states in chiral p-wave superconductors",
H. S. Røising, R. Ilan, T. Meng, S. H. Simon und F. Flicker,
SciPost Phys. 6, 055 (2019) oder arXiv:1901.09933. - "Anisotropic electrical and thermal magnetotransport in the magnetic semimetal GdPtBi",
C. Schindler, S. Galeski, W. Schnelle, R. Wawrzyn ́czak, W. Abdel-Haq, S. N. Guin, J. Kroder, N. Kumar, C. Fu, H. Borrmann, C. Shekhar, C. Felser, T. Meng, A. G. Grushin, Y. Zhang, Y. Sun und J. Gooth,
Phys. Rev. B 101, 125119 (2020) oder arXiv:1810.02300. - "Dirac fermions in the heavy-fermion superconductors Ce(Co,Rh,Ir)In5",
K. R. Shirer, Y. Sun, M. D. Bachmann, C. Putzke, T. Helm, L. E. Winter, F. F. Balakirev, R. D. McDonald, J. G. Analytis, N. L. Nair, E. D. Bauer, F. Ronning, C. Felser, T. Meng, B. Yan und P. J. W. Moll,
arXiv:1808.00403. - "Spatial control of heavy-fermion superconductivity in CeIrIn5",
M. D. Bachmann, G. M. Ferguson, F. Theuss, T. Meng, C. Putzke, T. Helm, K. R. Shirer, Y.-S. Li, K. A. Modic, M. Nicklas, M. Koenig, D. Low, S. Ghosh, A. P. Mackenzie, F. Arnold, E. Hassinger, R. D. McDonald, L. E. Winter, E. D. Bauer, F. Ronning, B. J. Ramshaw, K. C. Nowack und P. J.W. Moll,
Science 336, 221 (2019) oder arXiv:1807.05079. - "Thermodynamic Signatures of Weyl Fermions in NbP",
K. A. Modic, T. Meng, F. Ronning, E. D. Bauer, P. J. W. Moll und B. J. Ramshaw,
Scientific Reports 9, 2095 (2019) oder arXiv:1802.08221. - "Unpaired Weyl nodes from Long-Ranged Interactions: Fate of Quantum Anomalies",
T. Meng und J. C. Budich,
Phys. Rev. Lett. 122, 046402 (2019) oder arXiv:1804.05078. - "Z4 parafermions in one-dimensional fermionic lattices",
A. Calzona, T. Meng, M. Sassetti und T. L. Schmidt,
Phys. Rev. B 98, 201110(R) (2018) [Editors' Suggestion] oder arXiv:1802.06061. - "Fractionalized Fermi liquids and exotic superconductivity in the Kitaev Kondo lattice",
U. F. P. Seifert, T. Meng und M. Vojta,
Phys. Rev. B 97, 085118 (2018) oder arXiv:1710.09381. - "Missing Shapiro steps and the 8π-periodic Josephson effect in interacting helical electron systems",
C. J. Pedder, T. Meng, R. P. Tiwari und T. L. Schmidt,
Phys. Rev. B 96, 165429 (2017) oder arXiv:1705.06450. - "Experimental signatures of the mixed axial-gravitational anomaly in the Weyl semimetal NbP",
J. Gooth, A. C. Niemann, T. Meng, A. G. Grushin, K. Landsteiner, B. Gotsmann, F. Menges, M. Schmidt, C. Shekhar, V. Süß, R. Hühne, B. Rellinghaus, C. Felser, B. Yan und K. Nielsch,
Nature 547, 324 (2017) oder arXiv:1703.10682. - "Inducing superconductivity in Weyl semi-metal microstructures by selective ion sputtering",
M. D. Bachmann, N. Nair, F. Flicker, R. Ilan, T. Meng, N. J. Ghimire, E. D. Bauer, F. Ronning, J. G. Analytis und P. J. W. Moll,
Science Advances 3, e1602983 (2017) oder arXiv:1703.08024. - "Dynamic response functions and helical gaps in interacting Rashba nanowires with and without magnetic fields",
C. Pedder, T. Meng, R. P. Tiwari und T. L. Schmidt,
Phys. Rev. B 94, 245414 (2016) [Editors' Suggestion] oder arXiv:1608.03756. - "Theory of a 3+1D fractional chiral metal: interacting variant of the Weyl semimetal",
T. Meng, A. G. Grushin, K. Shtengel und J. H. Bardarson,
Phys. Rev. B 94, 155136 (2016) oder arXiv:1602.08856. - "Magneto-electric spectroscopy of Andreev bound states in Josephson quantum dots",
N. Wentzell, S. Florens, T. Meng, V. Meden und S. Andergassen,
Phys. Rev. B 94, 085151 (2016) oder arXiv:1605.09313. - "Fractional topological phases in three-dimensional coupled-wire systems",
T. Meng,
Phys. Rev. B 92, 115152 (2015) oder arXiv:1506.01364. - "Impurity Induced Quantum Phase Transitions and Magnetic Order in Conventional Superconductors: Competition between Bound and Quasiparticle states",
S. Hoffman, J. Klinovaja, T. Meng und D. Loss,
Phys. Rev. B 92, 125422 (2015) oder arXiv:1503.08762. - "Superconducting Gap Renormalization around two Magnetic Impurities: From Shiba to Andreev Bound States",
T. Meng, J. Klinovaja, S. Hoffman, P. Simon und D. Loss,
Phys. Rev. B 92, 064503 (2015) oder arXiv:1501.07901. - "Coupled wire construction of chiral spin liquids",
T. Meng, T. Neupert, M. Greiter und R. Thomale,
Phys. Rev. B 91, 241106(R) (2015) oder arXiv:1503.05051. - "Non-Abelian parafermions in time-reversal invariant interacting helical systems",
C. P. Orth, R. P. Tiwari, T. Meng und T. L. Schmidt,
Phys. Rev. B 91, 081406(R) (2015) oder arXiv:1405.4353. - "Time reversal symmetry broken fractional topological phases at zero magnetic field",
T. Meng und E. Sela,
Phys. Rev. B 90, 235425 (2014) oder arXiv:1410.2708. - "Nuclear spin relaxation in Rashba nanowires",
A. A. Zyuzin, T. Meng, V. Kornich und D. Loss,
Phys. Rev. B 90, 195125 (2014) oder arXiv:1407.2582. - "Strongly interacting holes in Ge/Si core/shell nanowires",
F. Maier, T. Meng und D. Loss,
Phys. Rev. B 90, 155437 (2014) oder arXiv:1408.0631. - "Helical nuclear spin order in a strip of stripes in the Quantum Hall regime",
T. Meng, P. Stano, J. Klinovaja und D. Loss,
Eur. Phys. J. B 87, 203 (2014) oder arXiv:1407.3726. - "Renormalization of anticrossings in interacting quantum wires with Rashba and Dresselhaus spin-orbit couplings",
T. Meng, J. Klinovaja und D. Loss,
Phys. Rev. B 89, 205133 (2014) oder arXiv:1407.3726. - "Low-energy properties of fractional helical Luttinger liquids",
T. Meng, L. Fritz, D. Schuricht und D. Loss,
Phys. Rev. B 89, 045111 (2014) oder arXiv:1308.3169. - "Strongly anisotropic spin response as a signature of the helical regime in Rashba nanowires",
T. Meng und D. Loss,
Phys. Rev. B 88, 035437 (2013) oder arXiv:1303.6994. - "Helical nuclear spin order in two-subband quantum wires",
T. Meng und D. Loss,
Phys. Rev. B 87, 235427 (2013) oder arXiv:1303.1542. - "Quantum criticality with multiple dynamics",
T. Meng, A. Rosch und M. Garst,
Phys. Rev. B 86, 125107 (2012) oder arXiv:1205.3400. - "Weyl superconductors",
T. Meng und L. Balents,
Phys. Rev. B 86, 054504 (2012) oder arXiv:1205.5202. - "First order 0/π quantum phase transition in the Kondo regime of a superconducting carbon nanotube quantum dot",
R. Maraud, T. Meng, E. Bonnet, S. Florens, L Marty und W. Wernsdorfer,
Phys. Rev. X 2, 011009 (2012) oder arXiv:1110.2067. - "Quantum phase tansitions in quantum wires controlled by an external gate",
T. Meng, M. Dixit, M. Garst und J. S. Meyer,
Phys. Rev. B 83, 125323 (2011) oder arXiv:1101.0216. - "Self-consistent description of Andreev bound states in Josephson quantum dot devices",
T. Meng, S. Florens und P. Simon,
Phys. Rev. B 79, 224521 (2009) oder arXiv:0902.1111. - "Optical magnetic circular dichroism in threshold photoemission from a magnetic thin film",
K. Hild, J. Maul, T. Meng, M. Kallmeyer, G. Schönhense, H. J. Elmers, R. Ramos, S. K. Arora und I. V. Schvets,
J. Phys.: Condens. Matter 20, 235218 (2008).