Keywords: قدرت خنک کننده نسبی; Monte Carlo simulation; Magnetocaloric effect; Thin film magnetism; Relative cooling power; Reduced surface exchange coupling; Magnetic coercive field;
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Changes in structural, magnetic and magnetocaloric properties due to homogenization annealing in Ni54Mn19Ga27
Keywords: قدرت خنک کننده نسبی; Heusler alloys; Annealing time; Magnetocaloric effect; Curie temperature; Relative cooling power;
Structural, magnetic, and magnetocaloric properties of Ag-doped in the La0.6Ca0.4MnO3 compound
Keywords: قدرت خنک کننده نسبی; Perovskite manganite; X-Ray diffraction; Magnetocaloric effect; Relative cooling power; Magnetic phase transition;
Effect of stacking blocks on the low field magnetic refrigeration in nanocrystalline Pr2Co7 compound
Keywords: قدرت خنک کننده نسبی; Intermetallic compounds; Magnetic materials; Magnetocaloric effect; Relative cooling power;
Influence of Fe-substitution on structural, magnetic and magnetocaloric properties of Nd2Fe17-xCox solid solutions
Keywords: قدرت خنک کننده نسبی; Intermetallic compounds; Magnetic materials; Magnetocaloric effect; Relative cooling power; Mössbauer spectrometry;
Enhancement of magnetocaloric effect around room temperature in Zn0.7Ni0.3-xCuxFe2O4 (0â¯â¤â¯xâ¯â¤â¯0.2) spinel ferrites
Keywords: قدرت خنک کننده نسبی; Spinel ferrites; Sol-gel method; X-ray analysis; Relative cooling power; Magnetocaloric effect; Landau theory;
Thickness as a control parameter for magnetocaloric effect in Cr75âxFe25+x (xâ¯=â¯0, 5) thin films
Keywords: قدرت خنک کننده نسبی; Magnetocaloric effect; Reetrant state; Relative cooling power; Magnetic refrigerant capacity; CrFe thin films;
Relative cooling power enhancement by tuning magneto-structural stability in Ni-Mn-In Heusler alloys
Keywords: قدرت خنک کننده نسبی; Magnetocaloric effect; Heusler alloys; Entropy; Relative cooling power;
Magnetocaloric effect and magnetic properties in NdMnO3 perovskite: A Monte Carlo approach
Keywords: قدرت خنک کننده نسبی; Monte Carlo simulation; Perovskite; Magnetocaloric effect; Relative cooling power;
Behavior of the magnetocaloric effect in La0.7Ba0.2Ca0.1Mn1-xSnxO3 manganite oxides as promising candidates for magnetic refrigeration
Keywords: قدرت خنک کننده نسبی; Manganites; Magnetocaloric effect; Relative cooling power;
Unconventional critical behavior near the phase transition temperature and magnetocaloric effect in La0.5Ca0.4Ag0.1MnO3 compound
Keywords: قدرت خنک کننده نسبی; Magnetic properties; Unconventional critical behavior; Magnetocaloric effect; Relative cooling power;
Low field magnetocaloric effect in the double perovskite Sr2CrMoO6: Monte Carlo simulation
Keywords: قدرت خنک کننده نسبی; Double perovskite; Monte Carlo simulation; Magnetocaloric effect; Relative cooling power;
Mass production of magnetocaloric LaFeMnSiB alloys with hydrogenation
Keywords: قدرت خنک کننده نسبی; Magnetocaloric effect; Annealing; Hydrogenation; Adiabatic temperature change; Relative cooling power; Maximum magnetic entropy change;
Effect of Ag substitution on structural, magnetic and magnetocaloric properties of Pr0.6Sr0.4-xAgxMnO3 manganites
Keywords: قدرت خنک کننده نسبی; monovalent doped manganite; XRD; SEM; ZFC and FC curves; mgnetocaloric effect; universal curves; relative cooling power; critical exponents;
Effect of barium-deficiency on the structural, magnetic, and magnetocaloric properties of La0.65Ba0.35âxâ¡xMnO3 (0 â¤Â x â¤Â 0.2) manganites
Keywords: قدرت خنک کننده نسبی; Magnetocaloric; Magnetic entropy; â¡ barium deficiency; Relative cooling power;
Magnetic, magnetocaloric and critical behavior study of La0.78Pb0.22MnO3 manganite near room-temperature
Keywords: قدرت خنک کننده نسبی; Magnetic entropy change; Relative cooling power; Critical exponents; Tricritical mean-field model;
Magnetocaloric effect in Sr2CrIrO6 double perovskite: Monte Carlo simulation
Keywords: قدرت خنک کننده نسبی; Double perovskite; Magnetocaloric effect; Relative cooling power; Monte Carlo simulation;
Magnetic and magnetocaloric properties in amorphous and crystalline Tb0.67Au0.33 alloys
Keywords: قدرت خنک کننده نسبی; Magnetic alloys; Magnetocaloric effect; Magnetic entropy change; Magnetic transition; Relative cooling power;
Investigation on magnetic and magnetocaloric properties in the Pb-doped manganites La0.78Ca0.22âxPbxMnO3(x = 0, 0.05 and 0.1)
Keywords: قدرت خنک کننده نسبی; X-ray diffraction; Magnetic entropy change; Relative cooling power; Universal master curve and mean field behavior;
Magnetic and magnetocaloric properties in sulfospinel Cd1âxZnxCr2S4 (x = 0, 0.3, 0.5) powders
Keywords: قدرت خنک کننده نسبی; Magnetocaloric effect; Ferromagnetic semiconductors; Magnetic order transition; Magnetic entropy change; Relative cooling power;
Magnetocaloric properties and Landau theory of Dy0.5(Sr1âxCax)0.5MnO3 (0 â¤Â x â¤Â 0.3) manganites at cryogenic temperatures
Keywords: قدرت خنک کننده نسبی; Perovskite manganites; Relative cooling power; Magnetocaloric effect; Landau theory;
Enhanced magnetocaloric properties of FeZr amorphous films by C ion implantation
Keywords: قدرت خنک کننده نسبی; Magnetocaloric materials; Thin films; Relative cooling power; Magnetic entropy; Ion implantation
Prediction of magnetocaloric effect in La0.6Ca0.4−xSrxMnO3 compounds for x=0, 0.05 and 0.4 with phenomenological model
Keywords: قدرت خنک کننده نسبی; Theoretical model; Magnetocaloric effect; Specific heat change; Relative cooling power
Effect of cobalt on structural, magnetic and magnetocaloric properties of La0.8Ba0.1Ca0.1Mn1-xCoxO3 (x = 0.00, 0.05 and 0.10) manganites
Keywords: قدرت خنک کننده نسبی; Structural; Magnetization; Magnetocaloric effect; Magnetic entropy change; Relative cooling power;
Indium doping effect on magnetocaloric, electro-transport and magnetoresistive properties of La0.6Gd0.1Sr0.3Mn1-xInxO3
Keywords: قدرت خنک کننده نسبی; Magnetocaloric effect; Model; Magnetic entropy change; Heat capacity change; Relative cooling power; Conduction mechanism; Small polaron hopping; Magnetoresistance; Percolation theory
Phenomenological model of the magnetocaloric effect on Nd0.7Ca0.15Sr0.15MnO3 compound prepared by ball milling method
Keywords: قدرت خنک کننده نسبی; Magnetocaloric effect; Model; Magnetic entropy change; Heat capacity change; Relative cooling power;
Influence of Eu doping on magnetocaloric behavior of La0.67Sr0.33MnO3
Keywords: قدرت خنک کننده نسبی; Magnetocaloric effect; Magnetization; Magnetic entropy change; Relative cooling power
Effect of substitution of Fe for Mn on the structural, magnetic properties and magnetocaloric effect of LaNdSrCaMnO3
Keywords: قدرت خنک کننده نسبی; Manganites; Magnetocaloric effect; Relative cooling power; Magnetic entropy
Tuning of normal and inverse magnetocaloric effect in Sm0.35Pr0.15Sr0.5MnO3 phase separated manganites
Keywords: قدرت خنک کننده نسبی; Manganites; Magnetocaloric effect; First order magnetic phase transition; Relative cooling power;
Structural, magnetic and magnetocaloric properties of La0.7Ca0.2Sr0.1Mn1−xCrxO3 compounds with x = 0, 0.05 and 0.1
Keywords: قدرت خنک کننده نسبی; Perovskite; Magnetocaloric effect; Magnetic refrigeration; Relative cooling power
Tunable magnetic transition and reversible magnetocaloric effects at room temperature in transition-metal-oxyfluorides CrO2âxFx
Keywords: قدرت خنک کننده نسبی; CrO2; Magnetocaloric effect; Relative cooling power; High-pressure synthesis;
Large magnetocaloric effect in lanthanum-deficiency manganites La0.8âxâ¡xCa0.2MnO3 (0.00â¤xâ¤0.20) with a first-order magnetic phase transition
Keywords: قدرت خنک کننده نسبی; Manganites; Magnetocaloric effect; Magnetic refrigeration; Relative cooling power;
Room temperature critical behavior and magnetocaloric properties of La0.6Nd0.1(CaSr)0.3Mn0.9V0.1O3
Keywords: قدرت خنک کننده نسبی; Manganites; Magnetocaloric effect; Relative cooling power; Critical exposents
Behavior of the magnetocaloric effect and critical exponents in La0.67Sr0.33Mn1âxVxO3 manganite oxide
Keywords: قدرت خنک کننده نسبی; Magnetic entropy; Critical phenomena; Relative cooling power;
The effect of heat treatments on Ni43Mn42Co4Sn11 meta-magnetic shape memory alloys for magnetic refrigeration
Keywords: قدرت خنک کننده نسبی; Magnetocaloric effect; Magnetic refrigeration; Magnetic entropy change; Magnetic shape memory alloys; Relative cooling power;
Magnetic properties and magneto-caloric effect in pseudo-binary intermetallic (Pr,Dy)2Fe17
Keywords: قدرت خنک کننده نسبی; Rare-earth intermetallics; Curie temperature; Magnetization; Magnetocaloric effect; Relative cooling power;
Influence of cobalt on the structural, magnetic and magnetocaloric properties of La0.67Ca0.33MnO3
Keywords: قدرت خنک کننده نسبی; X-ray diffraction; Reitveld refinement; Magnetocaloric effect; Relative cooling power; Magnetoresistance;
Magnetocaloric effect of La0.7−xPrxCa0.3MnO3 perovskites
Keywords: قدرت خنک کننده نسبی; Magnetic entropy change; Adiabatic temperature change; Relative cooling power; First order transition; Second order transition; Perovskite
Ideal Ericsson cycle magnetocaloric effect in (La0.9Gd0.1)0.67Sr0.33MnO3 single crystalline nanoparticles
Keywords: قدرت خنک کننده نسبی; Magnetic refrigeration; Phase transitions; Magnetocaloric effect; Relative cooling power;
Effect of Ti-substitution on magnetic and magnetocaloric properties of La0.57Nd0.1Pb0.33MnO3
Keywords: قدرت خنک کننده نسبی; Manganites; Perovskites; Magnetic refrigeration; Relative cooling power
Effect of Al substitution on magnetocaloric effect in La0.57Nd0.1Sr0.33Mn1−xAlxO3 (0.0 ≤ x ≤ 0.30) polycrystalline near room temperature
Keywords: قدرت خنک کننده نسبی; Al doped manganites; Magnetocaloric effect; Magnetic refrigeration; Magnetic entropy change; Relative cooling power
Influence of Dy addition on the magnetocaloric effect of La0.67Ca0.33Mn0.9V0.1O3 ceramics
Keywords: قدرت خنک کننده نسبی; X-ray diffraction; Reitveld refinement; Magnetocaloric effect; Relative cooling power;
Crossover of the magnetocaloric effect and its importance on the determination of the critical behaviour in the La0.67Ba0.33Mn0.9Cr0.1O3 perovskite manganite
Keywords: قدرت خنک کننده نسبی; Magnetocaloric effect; Relative cooling power; Magnetic entropy; Critical phenomena
Critical behavior and magnetocaloric effect in La0.67Ca0.33Mn1−xCrxO3 (x = 0.1, 0.25)
Keywords: قدرت خنک کننده نسبی; Manganites; Reitveld refinement; Magnetocaloric effect; Relative cooling power
Improvement of refrigerant capacity of La0.7Ca0.3MnO3 material with a few percent Co doping
Keywords: قدرت خنک کننده نسبی; Magnetic refrigeration; Phase transitions; Magnetocaloric effect; Relative cooling power; Magnetoresistance
Effect of Co substitution on magnetocaloric effect in La0.67Pb0.33Mn1−xCoxO3 (0.15 ≤ x ≤ 0.3)
Keywords: قدرت خنک کننده نسبی; Manganites; Magnetocaloric effect; Magnetic refrigeration; Magnetic entropy change; Relative cooling power
The influence of Dy additions on the magnetocaloric effect in Gd0.97V0.03 alloys
Keywords: قدرت خنک کننده نسبی; Magnetic refrigerant; Magnetocaloric effect; Magnetic entropy change; Relative cooling power
Effect of gallium doping on the magnetocaloric effect of LaFe11.2Co0.7Si1.1
Keywords: قدرت خنک کننده نسبی; rare earth; magnetization; magnetocaloric effect; cooling capacity; relative cooling power;
Magnetic entropy change in polycrystalline La1−xKxMnO3 perovskites
Keywords: قدرت خنک کننده نسبی; K doped lanthanum manganites; Magnetocaloric effect; Magnetic entropy change; Relative cooling power; Magnetic refrigerant