A
Alois Loidl
Researcher at University of Augsburg
Publications - 963
Citations - 30062
Alois Loidl is an academic researcher from University of Augsburg. The author has contributed to research in topics: Dielectric & Antiferromagnetism. The author has an hindex of 78, co-authored 951 publications receiving 27187 citations. Previous affiliations of Alois Loidl include Max Planck Society & Darmstadt University of Applied Sciences.
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Journal ArticleDOI
Relaxation dynamics in the one-dimensional organic charge-transfer salt δ -(EDT -TTF -CONMe 2 )2 Br
J. K. H. Fischer,Peter Lunkenheimer,C. Leva,Stephen M. Winter,Michael Lang,Cécile Mézière,Patrick Batail,Alois Loidl,Rudra Sekhar Manna +8 more
TL;DR: A detailed investigation of the charge-ordered charge-transfer salt by thermalexpansion measurements and dielectric spectroscopy reveals three dynamic processes of relaxational character, the slowest one exhibits the characteristics of glassy freezing and is ascribed to the conformational dynamics of terminal ethylene groups of the organic molecules as discussed by the authors.
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On the proximate Kitaev quantum-spin liquid α-RuCl3: thermodynamics, excitations and continua.
TL;DR: In this paper, the authors provide an overview of recent thermodynamic, infrared, and THz results on the proximate Kitaev spin-liquid and discuss the phonon spectra of the title compound including rigid-plane shear and compression modes of the single molecular layers.
Posted Content
Magnetic Resonant Mode in Superconducting Rb2Fe4Se5
Jitae Park,G. Friemel,Yuan Li,J. H. Kim,V. Tsurkan,Joachim Deisenhofer,H. A. Krug von Nidda,Alois Loidl,Alexandre Ivanov,Bernhard Keimer,Dmytro S. Inosov +10 more
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Dielectric properties of complex magnetic field induced states in PbCuSO4(OH)2.
TL;DR: Experimental evidence is derived by a detailed investigation of the magnetic-field dependent dielectric and electric polarization properties at low temperatures to prove the transitions into complex magnetic field induced phases of spin-multipolar phases.
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Ultrasound study of FeCr2S4 in high magnetic fields.
V. Felea,Shadi Yasin,A. Günther,Joachim Deisenhofer,H-A Krug von Nidda,E-W Scheidt,D. V. Quach,J. R. Groza,Sergei Zherlitsyn,Vladimir Tsurkan,Vladimir Tsurkan,Peter Lemmens,J. Wosnitza,J. Wosnitza,Alois Loidl +14 more
TL;DR: In this article, the authors report on ultrasound studies of FeCr2S4 in static and pulsed magnetic fields exhibiting an orbital-order transition at 9 K and 60 K, respectively.