J
Janez Dolinšek
Researcher at Jožef Stefan Institute
Publications - 183
Citations - 2093
Janez Dolinšek is an academic researcher from Jožef Stefan Institute. The author has contributed to research in topics: Quasicrystal & Magnetization. The author has an hindex of 22, co-authored 171 publications receiving 1870 citations. Previous affiliations of Janez Dolinšek include University of Illinois at Urbana–Champaign & University of Ljubljana.
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Journal ArticleDOI
Local Polarization Distribution and Edwards-Anderson Order Parameter of Relaxor Ferroelectrics
Robert Blinc,Janez Dolinšek,A. Gregorovič,Boštjan Zalar,Cene Filipič,Zdravko Kutnjak,Adrijan Levstik,Raša Pirc +7 more
TL;DR: In this article, the temperature dependence of the Edwards-Anderson order parameter and local polarization distribution function in a PMN single crystal via 2D NMR was determined in a single crystal.
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Spin-Lattice Relaxation and Self-Diffusion Study of the Protonic Superionic Conductors CsHSeO4 and CsHSO4
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Anisotropic physical properties of the Al13Fe4 complex intermetallic and its ternary derivative Al13(Fe,Ni)4
Petar Popčević,Ana Smontara,Jovica Ivkov,M. Wencka,Matej Komelj,Peter Jeglič,S. Vrtnik,M. Bobnar,Zvonko Jagličić,Birgitta Bauer,Peter Gille,Horst Borrmann,Ulrich Burkhardt,Yuri Grin,Janez Dolinšek +14 more
TL;DR: In this paper, the magnetic susceptibility, the electrical resistivity, the specific heat, the thermoelectric power, the Hall coefficient, and the thermal conductivity of the monoclinic approximants to the decagonal quasicrystal were investigated.
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Anisotropic magnetic and transport properties of orthorhombic Al13Co4
Janez Dolinšek,Matej Komelj,Peter Jeglič,S. Vrtnik,Denis Stanić,Petar Popčević,Jovica Ivkov,Ana Smontara,Zvonko Jagličić,Peter Gille,Yuri Grin +10 more
TL;DR: In this article, anisotropic physical properties (magnetic susceptibility, electrical resistivity, thermoelectric power, Hall coefficient, and thermal conductivity) of the orthorhombic approximant to the decagonal phase were investigated.
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Surface-spin magnetism of antiferromagnetic NiO in nanoparticle and bulk morphology
TL;DR: Performing experiments on the NiO nanoparticles of different sizes and bulk NiO grains, it is shown that coercivity enhancement and hysteresis loop shift in the fc experiments, considered to be the key experimental manifestations of multisublattice ordering and the EB effect, are true nanoscale phenomena only present in the nanoparticles and absent in the bulk.