A
A.M. Tishin
Researcher at Moscow State University
Publications - 154
Citations - 6242
A.M. Tishin is an academic researcher from Moscow State University. The author has contributed to research in topics: Magnetic refrigeration & Magnetization. The author has an hindex of 32, co-authored 142 publications receiving 5474 citations. Previous affiliations of A.M. Tishin include Russian Academy of Sciences & Kurchatov Institute.
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The Magnetocaloric Effect and its Applications
A.M. Tishin,Y I Spichkin +1 more
TL;DR: In this paper, the phase transition region magnetocaloric properties of 3D metals and their alloys have been investigated, including magnetocoric effect in amorphous materials and rare earth elements.
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Magnetic phase transitions and the magnetothermal properties of gadolinium
TL;DR: A study of four Gd samples of different purities using ac susceptibility, magnetization, heat capacity, and direct measurements of the magnetocaloric effect in quasistatic and pulse magnetic fields revealed that all techniques yield the same value of the zero-field Curie temperature of 294(1) K as mentioned in this paper.
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Thermodynamics of the magnetocaloric effect
TL;DR: The relationship between the behavior of the temperature-dependent heat capacity at constant pressure measured in different magnetic fields and the magnetocaloric effect in magnetic systems with and without discontinuous change of entropy is discussed in this article.
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The magnetocaloric effect in Fe49Rh51 compound
TL;DR: The magnetocaloric effect and magnetic permeability in annealed and quenched samples of Fe 49 Rh 51 alloys have been investigated in this article, where giant negative temperature changes about 13 K by applying a magnetic field at B = 2 T to the quencher sample of Fe 48 Rh 51 alloy have been observed.
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Alloys of the FeRh system as a new class of working material for magnetic refrigerators
TL;DR: In this article, the temperature dependences of initial magnetic permeability, specific heat capacity and magnetocaloric effect in annealed and quenched samples of Fe 48 Rh 51 alloys near the antiferromagnetic-ferromagnetic (AF-F) first-order phase transition have been investigated.