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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Singlet ground state magnetism: II. magnetic excitons in paramagnetic TbP
TL;DR: In this article, a phenomenological model was proposed to analyze the dispersion of the singlet ground state system TbP exciton in terms of the fourth nearest neighbor interaction.
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Translational and reorientational dynamics in deep eutectic solvents
TL;DR: In this paper, the authors performed rheological measurements of the typical deep eutectic solvents (DESs) glyceline, ethaline, and reline in a very broad temperature and dynamic range.
Journal Article
フラストレーションしたダイヤモンド格子の反強磁性体CoAl 2 O 4 単結晶のスピン液体
Oksana Zaharko,Niels Bech Christensen,Antonio Cervellino,V. Tsurkan,A. Maljuk,Uwe Stuhr,Christof Niedermayer,F. Yokaichiya,Dimitri N. Argyriou,Martin Boehm,Alois Loidl +10 more
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Spin-lattice coupling in a ferrimagnetic spinel: Exotic H − T phase diagram of MnCr 2 S 4 up to 110 T
Atsuhiko Miyata,Hidemaro Suwa,Hidemaro Suwa,T. Nomura,L. Prodan,V. Felea,V. Felea,Y. Skourski,Joachim Deisenhofer,H.-A. Krug von Nidda,Oliver Portugall,Sergei Zherlitsyn,Vladimir Tsurkan,J. Wosnitza,J. Wosnitza,Alois Loidl +15 more
TL;DR: In this article, the spin-lattice coupling is essential to ferrimagnetic spinels as well and the authors performed ultrahigh-field magnetization measurements up to 110 T on a Yafet-Kittel spinel, which was complemented by measurements of magnetostriction and sound velocities up to 60 T.
Journal ArticleDOI
Search for Electronic Phase Separation at Quantum Phase Transitions
Christian Pfleiderer,Peter Böni,Christian Franz,Thomas Keller,Thomas Keller,A. Neubauer,P. G. Niklowitz,P. G. Niklowitz,Philipp Schmakat,Michael Schulz,Yingkai Huang,J. A. Mydosh,Matthias Vojta,W. J. Duncan,F. M. Grosche,Manuel Brando,M. Deppe,C. Geibel,Frank Steglich,A. Krimmel,Alois Loidl +20 more
TL;DR: In this paper, the authors used depolarization imaging and neutron Larmor diffraction to provide detailed real-space and reciprocal-space information, respectively, on the existence and nature of phase separations.