Vision & Mission
The Würzburg-Dresden Center for Topological Quantum Matter Research functions as a bridge between the condensed matter research institutions at Würzburg and Dresden. Our aim is to develop a deep understanding of topological phenomena in general and to identify materials in which those phenomena can be observed in the laboratory.
Recent Publications
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08 Sept 2025
F1000Res 13, 1429 (2025)
arXiv:2311.11457Foundational competencies and responsibilities of a research software engineer
F. Goth et al.
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02 Sept 2025
Nat. Commun. 16, 8209 (2025)
arXiv:2503.11497Backscattering in topological edge states despite time-reversal symmetry
J. Erhardt et al.
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02 Sept 2025
Phys. Rev. B 112, 094403 (2025)
Direct probe of magnetic field effects on phonons by ultrasound propagation in the quasi-two-dimensional honeycomb magnet Na$_{\mathbf{2}}$Co$_{\mathbf{2}}$TeO$_{\mathbf{6}}$
X. Hong et al.
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01 Sept 2025
Commun. Phys. 8, 361 (2025)
arXiv:2412.17179Highly efficient broadband THz mixing and upconversion with Dirac materials
T. A. Uaman Svetikova et al.
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26 Aug 2025
Rev. Sci. Instrum. 96, 083101 (2025)
arXiv:2411.15910Cryogenic continuous-wave optical spectrometer for sub-THz frequencies
L. Rogić et al.
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26 Aug 2025
Adv. Funct. Mater. n/a, e11057 (2025)
Magnetic-field tuning of the spin dynamics in the quasi-2D van der Waals antiferromagnet CuCrP$_{\mathbf{2}}$S$_{\mathbf{6}}$
J. J. Abraham et al.
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25 Aug 2025
Adv. Sci. n/a, e06676 (2025)
arXiv:2305.06909Anticrossing of a plasmonic nanoresonator mode and a single quantum dot at room temperature
D. Friedrich et al.
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22 Aug 2025
Highly reversible magnetocaloric effect in Gd$_{\mathbf{5}}$Si$_{\mathbf{0.25}}$Ge$_{\mathbf{3.75}}$ and Gd$_{\mathbf{5}}$Si$_{\mathbf{0.5}}$Ge$_{\mathbf{3.5}}$ under moderate magnetic fields for hydrogen liquefaction
E. Bykov et al.
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19 Aug 2025
Phys. Rev. Lett. 135, 086702 (2025)
arXiv:2501.08327Two-peak heat capacity accounts for R ln(2) entropy and ground state access in the dipole-octupole pyrochlore Ce$_{\mathbf{2}}$Hf$_{\mathbf{2}}$O$_{\mathbf{7}}$
E. M. Smith et al.