R
Robert Blinc
Researcher at Jožef Stefan Institute
Publications - 651
Citations - 15051
Robert Blinc is an academic researcher from Jožef Stefan Institute. The author has contributed to research in topics: Ferroelectricity & Liquid crystal. The author has an hindex of 53, co-authored 651 publications receiving 14466 citations. Previous affiliations of Robert Blinc include University of Ljubljana.
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Journal ArticleDOI
Spontaneous Magnetic Ordering in the Fullerene Charge-Transfer Salt (TDAE)C60.
Alexandros Lappas,Kosmas Prassides,K. Vavekis,Denis Arčon,Robert Blinc,P. Cevc,Anthony A. Amato,R. Feyerherm,F. N. Gygax,A. Schenck +9 more
TL;DR: The temperature evolution of the internal magnetic field below the freezing temperature mirrors that of the saturation magnetization, closely following the behavior expected for collective spin wave (magnon) excitations.
Journal ArticleDOI
Spin-Lattice Relaxation and Self-Diffusion Study of the Protonic Superionic Conductors CsHSeO4 and CsHSO4
Journal ArticleDOI
Magnetic control of large room-temperature polarization.
TL;DR: This long-sought effect of room-temperature magnetic switching of large electric polarizations as 'the Holy Grail' of magnetoelectricity is reported, obtained using a new physical process of coupling between magnetic and ferroelectric nanoregions.
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Surface Phase Transitions in BiFeO3 Below Room Temperature
R. Jarrier,R. Jarrier,Xavier Marti,Julia Herrero-Albillos,Julia Herrero-Albillos,Pilar Ferrer,Raphael Haumont,Raphael Haumont,P. Gemeiner,Grégory Geneste,Patrick Berthet,T. Schulli,Pavel Cevc,Robert Blinc,Stanislaus S. Wong,Stanislaus S. Wong,Tae-Jin Park,Tae-Jin Park,Marin Alexe,Michael A. Carpenter,James F. Scott,Gustau Catalan,Brahim Dkhil +22 more
TL;DR: In this paper, a wide variety of experimental techniques were combined to analyze two heretofore mysterious phase transitions in multiferroic bismuth ferrite at low temperature, and the transition at $T$ $=$ 140.3 K was shown to be a surface phase transition, with an associated sharp change in lattice parameter and charge density at the surface.
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Electron paramagnetic resonance of magnetoelectric Pb(Fe1∕2Nb1∕2)O3
Robert Blinc,P. Cevc,Andrej Zorko,Janez Holc,M. Kosec,Zvonko Trontelj,Janez Pirnat,Naresh S. Dalal,Vasanth Ramachandran,J. Krzystek +9 more
TL;DR: In this paper, the X-band, Q-band and far infrared electron paramagnetic resonance (EPR) spectra have been measured between 4 and 600K and compared with magnetic susceptibility and magnetization data.