Raghda Abu Elnasr, Samy H. Aly, Sherif Yehia, Fatema Z. Mohammad
{"title":"R6Fe23的磁热效应:R = Dy, Ho, Er,和Tm","authors":"Raghda Abu Elnasr, Samy H. Aly, Sherif Yehia, Fatema Z. Mohammad","doi":"10.1007/s10948-023-06529-0","DOIUrl":null,"url":null,"abstract":"<div><p>We present a mean field study on the R<sub>6</sub>Fe<sub>23</sub> system, where R = Dy, Ho, Er, and Tm, to calculate the magnetization, magnetic heat capacity, and the magnetocaloric effect (MCE) (isothermal entropy change (ΔS<sub>m</sub>) and the adiabatic temperature change (ΔT<sub>ad</sub>)) for different field changes up to 5 T and at temperatures ranging from 0 to 600 K. The maximum ΔS<sub>m</sub>, using the trapezoidal method, for the R<sub>6</sub>Fe<sub>23</sub> system is in the range 4.9–9.8 J/K mol, and the maximum ΔT<sub>ad</sub> is in the range 9.56–15.17 K for a field change Δ<i>H</i> = 5 T. The largest ΔS<sub>m</sub> and largest ΔT<sub>ad</sub> are found for Tm<sub>6</sub>Fe<sub>23</sub> to be 9.8 J/K mol and 15.17 K at Curie temperature <i>T</i><sub><i>c</i></sub> = 489 K, for Δ<i>H</i> = 5 T. The relative cooling power RCP(S) is in the range 148–560 J/mol for Δ<i>H</i> = 5 T, which is comparable to that of bench-mark materials, e.g., Gd. Also, the RCP based on the adiabatic temperature change, RCP(T) is in the range 449–1092 K<sup>2</sup> for Δ<i>H</i> = 5 T, which is comparable also to that of bench-mark materials, e.g., Gd. We investigated the type of phase transition in the light of universal curves, Arrott plots, and the behavior of the magnetic moment, magnetic heat capacity, and MCE (ΔS<sub>m</sub>, ΔT<sub>ad</sub>), which confirm that the type of phase transition at T<sub>c</sub> of this system is second-order phase transition (SOPT). A calculation of some critical exponents adds more evidence that the MFT is fairly suitable to handle the aforementioned properties in the studied systems.</p></div>","PeriodicalId":669,"journal":{"name":"Journal of Superconductivity and Novel Magnetism","volume":"36 3","pages":"931 - 938"},"PeriodicalIF":1.6000,"publicationDate":"2023-03-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://link.springer.com/content/pdf/10.1007/s10948-023-06529-0.pdf","citationCount":"0","resultStr":"{\"title\":\"Magnetocaloric Effect in R6Fe23: R = Dy, Ho, Er, and Tm\",\"authors\":\"Raghda Abu Elnasr, Samy H. Aly, Sherif Yehia, Fatema Z. Mohammad\",\"doi\":\"10.1007/s10948-023-06529-0\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>We present a mean field study on the R<sub>6</sub>Fe<sub>23</sub> system, where R = Dy, Ho, Er, and Tm, to calculate the magnetization, magnetic heat capacity, and the magnetocaloric effect (MCE) (isothermal entropy change (ΔS<sub>m</sub>) and the adiabatic temperature change (ΔT<sub>ad</sub>)) for different field changes up to 5 T and at temperatures ranging from 0 to 600 K. The maximum ΔS<sub>m</sub>, using the trapezoidal method, for the R<sub>6</sub>Fe<sub>23</sub> system is in the range 4.9–9.8 J/K mol, and the maximum ΔT<sub>ad</sub> is in the range 9.56–15.17 K for a field change Δ<i>H</i> = 5 T. The largest ΔS<sub>m</sub> and largest ΔT<sub>ad</sub> are found for Tm<sub>6</sub>Fe<sub>23</sub> to be 9.8 J/K mol and 15.17 K at Curie temperature <i>T</i><sub><i>c</i></sub> = 489 K, for Δ<i>H</i> = 5 T. The relative cooling power RCP(S) is in the range 148–560 J/mol for Δ<i>H</i> = 5 T, which is comparable to that of bench-mark materials, e.g., Gd. Also, the RCP based on the adiabatic temperature change, RCP(T) is in the range 449–1092 K<sup>2</sup> for Δ<i>H</i> = 5 T, which is comparable also to that of bench-mark materials, e.g., Gd. We investigated the type of phase transition in the light of universal curves, Arrott plots, and the behavior of the magnetic moment, magnetic heat capacity, and MCE (ΔS<sub>m</sub>, ΔT<sub>ad</sub>), which confirm that the type of phase transition at T<sub>c</sub> of this system is second-order phase transition (SOPT). 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Magnetocaloric Effect in R6Fe23: R = Dy, Ho, Er, and Tm
We present a mean field study on the R6Fe23 system, where R = Dy, Ho, Er, and Tm, to calculate the magnetization, magnetic heat capacity, and the magnetocaloric effect (MCE) (isothermal entropy change (ΔSm) and the adiabatic temperature change (ΔTad)) for different field changes up to 5 T and at temperatures ranging from 0 to 600 K. The maximum ΔSm, using the trapezoidal method, for the R6Fe23 system is in the range 4.9–9.8 J/K mol, and the maximum ΔTad is in the range 9.56–15.17 K for a field change ΔH = 5 T. The largest ΔSm and largest ΔTad are found for Tm6Fe23 to be 9.8 J/K mol and 15.17 K at Curie temperature Tc = 489 K, for ΔH = 5 T. The relative cooling power RCP(S) is in the range 148–560 J/mol for ΔH = 5 T, which is comparable to that of bench-mark materials, e.g., Gd. Also, the RCP based on the adiabatic temperature change, RCP(T) is in the range 449–1092 K2 for ΔH = 5 T, which is comparable also to that of bench-mark materials, e.g., Gd. We investigated the type of phase transition in the light of universal curves, Arrott plots, and the behavior of the magnetic moment, magnetic heat capacity, and MCE (ΔSm, ΔTad), which confirm that the type of phase transition at Tc of this system is second-order phase transition (SOPT). A calculation of some critical exponents adds more evidence that the MFT is fairly suitable to handle the aforementioned properties in the studied systems.
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The Journal of Superconductivity and Novel Magnetism serves as the international forum for the most current research and ideas in these fields. This highly acclaimed journal publishes peer-reviewed original papers, conference proceedings and invited review articles that examine all aspects of the science and technology of superconductivity, including new materials, new mechanisms, basic and technological properties, new phenomena, and small- and large-scale applications. Novel magnetism, which is expanding rapidly, is also featured in the journal. The journal focuses on such areas as spintronics, magnetic semiconductors, properties of magnetic multilayers, magnetoresistive materials and structures, magnetic oxides, etc. Novel superconducting and magnetic materials are complex compounds, and the journal publishes articles related to all aspects their study, such as sample preparation, spectroscopy and transport properties as well as various applications.
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