SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3127665542> ?p ?o ?g. }

Showing items 1 to 100 of ±130 with 100 items per page.

W3127665542 abstract "Knowledge of the magnetic ordering temperature is one of the fundamental physical properties characterizing material behavior. Magnetism is not only related to the magnitude of magnetic moments within specific magnetic ordering, but it also influences other physical properties. In the present work, we determine magnetic ordering temperatures for high-entropy alloys (HEAs), with examples of the Al- and Mo-based Cantor alloy derivatives. Nowadays, HEAs represent a promising class of materials in the sense of mechanical engineering. Regarding the paramagnetic state of the well-known and well-explored Cantor alloy, we deal with its Mo and Al derivatives, which offer higher possible ordering temperatures. We discuss the differences between $p$-type and $d$-type substitution as well as their influence on the magnetic behavior. We determine the ordering temperatures based on the ab initio calculated magnetic exchange interactions in terms of the mean-field approximation, random-phase approximation, and Monte Carlo simulations. Based on the thorough description of magnetic pair exchange interactions, a particular composition's influence on the achieved critical temperatures is described." @default.
W3127665542 created "2021-02-15" @default.
W3127665542 creator A5033027491 @default.
W3127665542 creator A5059839409 @default.
W3127665542 creator A5069170567 @default.
W3127665542 date "2021-02-04" @default.
W3127665542 modified "2023-10-16" @default.
W3127665542 title "Evolution of the Curie temperature for a substituted Cantor alloy" @default.
W3127665542 cites W1128811103 @default.
W3127665542 cites W1597549653 @default.
W3127665542 cites W162835773 @default.
W3127665542 cites W1856766572 @default.
W3127665542 cites W1970038689 @default.
W3127665542 cites W1970065157 @default.
W3127665542 cites W1970183951 @default.
W3127665542 cites W1987681381 @default.
W3127665542 cites W2003975937 @default.
W3127665542 cites W2005842874 @default.
W3127665542 cites W2007526724 @default.
W3127665542 cites W2018114878 @default.
W3127665542 cites W2025162511 @default.
W3127665542 cites W2025847715 @default.
W3127665542 cites W2028912160 @default.
W3127665542 cites W2034614981 @default.
W3127665542 cites W2038533471 @default.
W3127665542 cites W2049635322 @default.
W3127665542 cites W2050728735 @default.
W3127665542 cites W2069637099 @default.
W3127665542 cites W2085907722 @default.
W3127665542 cites W2093199778 @default.
W3127665542 cites W2132633430 @default.
W3127665542 cites W2132755882 @default.
W3127665542 cites W2196754596 @default.
W3127665542 cites W2236517443 @default.
W3127665542 cites W2337243655 @default.
W3127665542 cites W2387497599 @default.
W3127665542 cites W2409721926 @default.
W3127665542 cites W2534691303 @default.
W3127665542 cites W2611691802 @default.
W3127665542 cites W2626862444 @default.
W3127665542 cites W2741604767 @default.
W3127665542 cites W2766023259 @default.
W3127665542 cites W2790788177 @default.
W3127665542 cites W2792921134 @default.
W3127665542 cites W2808754086 @default.
W3127665542 cites W2884397236 @default.
W3127665542 cites W2886394351 @default.
W3127665542 cites W2903086778 @default.
W3127665542 cites W2906507425 @default.
W3127665542 cites W2911409329 @default.
W3127665542 cites W2943422004 @default.
W3127665542 cites W2964187030 @default.
W3127665542 cites W2965185271 @default.
W3127665542 cites W2972846018 @default.
W3127665542 cites W2997807528 @default.
W3127665542 cites W3009334461 @default.
W3127665542 cites W3098461107 @default.
W3127665542 cites W3191407898 @default.
W3127665542 cites W4253319313 @default.
W3127665542 cites W940985754 @default.
W3127665542 doi "https://doi.org/10.1103/physrevb.103.064407" @default.
W3127665542 hasPublicationYear "2021" @default.
W3127665542 type Work @default.
W3127665542 sameAs 3127665542 @default.
W3127665542 citedByCount "4" @default.
W3127665542 countsByYear W31276655422022 @default.
W3127665542 countsByYear W31276655422023 @default.
W3127665542 crossrefType "journal-article" @default.
W3127665542 hasAuthorship W3127665542A5033027491 @default.
W3127665542 hasAuthorship W3127665542A5059839409 @default.
W3127665542 hasAuthorship W3127665542A5069170567 @default.
W3127665542 hasConcept C100454173 @default.
W3127665542 hasConcept C115260700 @default.
W3127665542 hasConcept C121332964 @default.
W3127665542 hasConcept C121864883 @default.
W3127665542 hasConcept C124712363 @default.
W3127665542 hasConcept C174771821 @default.
W3127665542 hasConcept C182260160 @default.
W3127665542 hasConcept C191897082 @default.
W3127665542 hasConcept C192562407 @default.
W3127665542 hasConcept C197162081 @default.
W3127665542 hasConcept C26873012 @default.
W3127665542 hasConcept C2780026712 @default.
W3127665542 hasConcept C32546565 @default.
W3127665542 hasConcept C54553102 @default.
W3127665542 hasConcept C62520636 @default.
W3127665542 hasConcept C63648874 @default.
W3127665542 hasConcept C82217956 @default.
W3127665542 hasConcept C97355855 @default.
W3127665542 hasConceptScore W3127665542C100454173 @default.
W3127665542 hasConceptScore W3127665542C115260700 @default.
W3127665542 hasConceptScore W3127665542C121332964 @default.
W3127665542 hasConceptScore W3127665542C121864883 @default.
W3127665542 hasConceptScore W3127665542C124712363 @default.
W3127665542 hasConceptScore W3127665542C174771821 @default.
W3127665542 hasConceptScore W3127665542C182260160 @default.
W3127665542 hasConceptScore W3127665542C191897082 @default.
W3127665542 hasConceptScore W3127665542C192562407 @default.
W3127665542 hasConceptScore W3127665542C197162081 @default.
W3127665542 hasConceptScore W3127665542C26873012 @default.