Influence of Technologically Driven Disorder on Spin Dynamics in Manganites in Mid-to-Far Critical Range
Magnetics, IEEE Transactions(2012)
Abstract
Electron paramagnetic resonance measurements were used to probe spin dynamics over mid-to-far critical range for four samples of different structural forms of La0.9Ca0.1MnO3. As a result of different fabrication routes, these samples contain different imperfections which may have specific impacts on temperature dependence of the EPR linewidth. An analysis of critical spin relaxation speedup, manifested by sharp increase of the linewidth and Onsager kinetic coefficient when approaching to magnetic transition points, was carried out using two critical exponents derived from dynamic and static scaling laws. Deviations of these exponents from theoretical bounds were proposed to be hallmarks of the disorder types.
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Key words
calcium compounds,critical exponents,lanthanum compounds,magnetic transitions,paramagnetic resonance,spin dynamics,La0.9Ca0.1MnO3,Onsager kinetic coefficient,critical exponents,dynamic scaling laws,electron paramagnetic resonance,imperfections,magnetic transition,manganites,spin dynamics,static scaling laws,technologically driven disorder,Critical phenomena,magnetic resonance,manganese compounds,spin dynamics
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