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A dimensionless description of active magnetic regenerators to compare their performance and to simplify their optimizationTAGLIAFICO, Giulio; SCARPA, Federico; TAGLIAFICO, Luca A et al.International journal of refrigeration. 2013, Vol 36, Num 3, pp 941-949, issn 0140-7007, 9 p.Article

Magnetocaloric effect in ferromagnetic superconductorsKOZLOWSKI, G; MATSUMOTO, H; TESHIMA, R et al.Solid state communications. 1985, Vol 54, Num 6, pp 679-682, issn 0038-1098Article

Une fonction de l'effet magnéto-calorique dans un liquide magnétiquePOLUNIN, V. M.Magnitnaâ gidrodinamika. 1985, Num 3, pp 53-56, issn 0025-0015Article

3D GdIII Complex Containing Gd16 Macrocycles Exhibiting Large Magnetocaloric EffectJIA, Ji-Min; LIU, Sui-Jun; YU CUI et al.Crystal growth & design. 2013, Vol 13, Num 11, pp 4631-4634, issn 1528-7483, 4 p.Article

Magnetocaloric effect in thuliumZIMM, C. B; BARCLAY, J. A; HARKNESS, H. H et al.Cryogenics (Guildford). 1989, Vol 29, Num 9, pp 937-938, issn 0011-2275Article

SPIN WAVES AND MAGNETOCALORIC EFFECT IN A TWO-SUBLATTICE ANTIFERRIMAGNET.KALVA Z; VELTRUSKY I; KOZLOWSKI G et al.1976; PHYS. LETTERS, A; NETHERL.; DA. 1976; VOL. 57; NO 1; PP. 75-76; BIBL. 3 REF.Article

Selection of magnetic materials for an active magnetic regenerative refrigeratorREID, C. E; BARCLAY, J. A; HALL, J. L et al.Journal of alloys and compounds. 1994, Vol 207-08, pp 366-371, issn 0925-8388Conference Paper

Optomagnetocaloric effectKABYCHENKOV, A. F; TYBULEWICZ, A.Soviet physics. Solid state. 1992, Vol 34, Num 12, pp 2041-2042, issn 0038-5654Article

Developments in magnetocaloric refrigerationBRÜCK, Ekkes.Journal of physics. D, Applied physics (Print). 2005, Vol 38, Num 23, pp R381-R391, issn 0022-3727Article

Magnetocaloric effect in uniaxial ferromagnets in the region of an orientational phase transitionBABKIN, E. V; YAROVAYA, O. A; TYBULEWICZ, A et al.Physics of the solid state. 1993, Vol 35, Num 4, pp 561-563, issn 1063-7834Article

Handling mixed-state magnetization data for magnetocaloric studies: a solution to achieve realistic entropy behaviourDAS, S; AMARAL, J. S; AMARAL, V. S et al.Journal of physics. D, Applied physics (Print). 2010, Vol 43, Num 15, issn 0022-3727, 152002.1-152002.4Article

Magnetocaloric effect : Current situation and future trendsTISHIN, A. M.Journal of magnetism and magnetic materials. 2007, Vol 316, Num 2, pp 351-357, issn 0304-8853, 7 p.Conference Paper

Smaller lasers demand new approaches to chiller designKRUPNICK, Stu.Laser focus world. 2000, Vol 36, Num 11, pp 157-162, issn 1043-8092, 4 p.Article

Magnetocaloric effect at the first-order magnetic phase transitionsSPICHKIN, Y. I; TISHIN, A. M.Journal of alloys and compounds. 2005, Vol 403, Num 1-2, pp 38-44, issn 0925-8388, 7 p.Article

EFFET MAGNETOCALORIFIQUE DANS UN CHAMP ALTERNATIFMOROZOV AI.1976; PIS'MA ZH. EKSPER. TEOR. FIZ.; S.S.S.R.; DA. 1976; VOL. 23; NO 8; PP. 425-428; BIBL. 6 REF.Article

MAGNETOCALORIC EFFECT AND SPIN WAVES IN TWO-SUBLATTICE ANTIFERROMAGNETIC SUPERCONDUCTORSKOZLOWSKI G; ROGACKI K.1982; PHYSICA STATUS SOLIDI. (B). BASIC RESEARCH; ISSN 0370-1972; DDR; DA. 1982; VOL. 114; NO 1; PP. K5-K9; BIBL. 3 REF.Article

SUSCEPTIBILITY MAXIMUM AND LOGARITHMIC TEMPERATURE DEPENDENCE OF MAGNETOCALORIC EFFECT: APPLICATION TO U2C3.MISAWA S.1975; SOLID STATE COMMUNIC.; G.B.; DA. 1975; VOL. 16; NO 10-11; PP. 1215-1218; BIBL. 13 REF.Article

A giant reversible magnetocaloric effect in Ho2PdSi3 compoundZHAO JUN MO; JUN SHEN; LI QIN VAN et al.Journal of alloys and compounds. 2014, Vol 618, pp 512-515, issn 0925-8388, 4 p.Article

Giant magnetocaloric effect in antiferromagnetic DyVO4 compoundMIDYA, A; KHAN, N; BHOI, D et al.Physica. B, Condensed matter. 2014, Vol 448, pp 43-45, issn 0921-4526, 3 p.Conference Paper

Field and temperature induced colossal strain in Gd5(SixGe1-x)4HADIMANI, R. L; BARTLETT, P. A; MELIKHOV, Y et al.Journal of magnetism and magnetic materials. 2011, Vol 323, Num 5, pp 532-534, issn 0304-8853, 3 p.Article

Giant magnetocaloric effect in Tm-based bulk metallic glassesHUO, J. T; ZHAO, D. Q; BAI, H. Y et al.Journal of non-crystalline solids. 2013, Vol 359, pp 1-4, issn 0022-3093, 4 p.Article

Making the most of the magnetic and lattice entropy changes : Magnetocaloric materialsPECHARSKY, V. K; GSCHNEIDNER, K. A; MUDRYK, Ya et al.Journal of magnetism and magnetic materials. 2009, Vol 321, Num 21, pp 3541-3547, issn 0304-8853, 7 p.Article

The magnetic and magnetocaloric properties of CoMnGe1-xGax alloysDINCER, I; YÜZÜAK, E; DURAK, G et al.Journal of alloys and compounds. 2014, Vol 588, pp 332-336, issn 0925-8388, 5 p.Article

Phase control studies in Gd5Si2Ge2 giant magnetocaloric compoundBELO, J. H; PEREIRA, A. M; IBARRA, M. R et al.Journal of alloys and compounds. 2012, Vol 529, pp 89-95, issn 0925-8388, 7 p.Article

The magnetocaloric effect at the first-order magneto-elastic phase transitionBASSO, Vittorio.Journal of physics. Condensed matter (Print). 2011, Vol 23, Num 22, issn 0953-8984, 226004.1-226004.6Article

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