SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3048354671> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W3048354671 abstract "We report structural and atomic transport properties of liquid Ti, which are poorly understood at high temperatures. The studies were performed using molecular dynamics (MD) simulation based on a potential model that accounts for the role of $d$ electrons. The interactions between ions are described by a pair potential built within the pseudopotential formalism obtained by an inverse scattering approach that consists of a repulsive core and long-range Friedel oscillations. The parameters determining the $s$- and $d$- electron contributions to the potential are deduced from the knowledge of liquid structure and diffusion coefficient at the melting temperature. The clear connection between local order and atomic transport in liquids emerges from the molecular dynamics simulation. The calculated pair correlation function and structure factor show very good agreement with recently available ab-initio molecular dynamics (AIMD) and experimental results, respectively. By comparing the temperature dependence of diffusion coefficient and viscosity, the effective pair potential based on the pseudopotential method provides a significantly important portion of the high temperature properties of liquid Ti and strongly validates the accuracy of the method. The activation energy of the liquid metals is obtained by fitting the Arrhenius formula. The approach presented herein gives a broader and deeper insight into the transition metal liquid state." @default.
W3048354671 created "2020-08-13" @default.
W3048354671 creator A5026943357 @default.
W3048354671 creator A5059329197 @default.
W3048354671 date "2020-08-03" @default.
W3048354671 modified "2023-09-26" @default.
W3048354671 title "Structure and atomic transport of liquid titanium from a pair potential model" @default.
W3048354671 cites W1573968521 @default.
W3048354671 cites W1637106363 @default.
W3048354671 cites W1966011313 @default.
W3048354671 cites W1971332719 @default.
W3048354671 cites W1971764339 @default.
W3048354671 cites W1977325587 @default.
W3048354671 cites W1977937342 @default.
W3048354671 cites W1981037321 @default.
W3048354671 cites W1985886497 @default.
W3048354671 cites W1987418576 @default.
W3048354671 cites W1987902932 @default.
W3048354671 cites W1991794210 @default.
W3048354671 cites W1993587536 @default.
W3048354671 cites W1994280680 @default.
W3048354671 cites W1994402856 @default.
W3048354671 cites W1995780391 @default.
W3048354671 cites W2006174099 @default.
W3048354671 cites W2012062638 @default.
W3048354671 cites W2012302574 @default.
W3048354671 cites W2013261760 @default.
W3048354671 cites W2013388090 @default.
W3048354671 cites W2016576538 @default.
W3048354671 cites W2018621422 @default.
W3048354671 cites W2019465613 @default.
W3048354671 cites W2019973064 @default.
W3048354671 cites W2020806516 @default.
W3048354671 cites W2021716666 @default.
W3048354671 cites W2029524007 @default.
W3048354671 cites W2039723776 @default.
W3048354671 cites W2041178066 @default.
W3048354671 cites W2043087471 @default.
W3048354671 cites W2043219457 @default.
W3048354671 cites W2046847103 @default.
W3048354671 cites W2053140887 @default.
W3048354671 cites W2058901368 @default.
W3048354671 cites W2062402464 @default.
W3048354671 cites W2064632709 @default.
W3048354671 cites W2065442854 @default.
W3048354671 cites W2065983929 @default.
W3048354671 cites W2066749047 @default.
W3048354671 cites W2069069585 @default.
W3048354671 cites W2069299211 @default.
W3048354671 cites W2070966057 @default.
W3048354671 cites W2072764367 @default.
W3048354671 cites W2072990119 @default.
W3048354671 cites W2077067709 @default.
W3048354671 cites W2082797854 @default.
W3048354671 cites W2085234413 @default.
W3048354671 cites W2085928979 @default.
W3048354671 cites W2087493139 @default.
W3048354671 cites W2089212778 @default.
W3048354671 cites W2090788073 @default.
W3048354671 cites W2092956557 @default.
W3048354671 cites W2093664649 @default.
W3048354671 cites W2093702951 @default.
W3048354671 cites W2094666753 @default.
W3048354671 cites W2095535254 @default.
W3048354671 cites W2124745044 @default.
W3048354671 cites W2126535862 @default.
W3048354671 cites W2253268352 @default.
W3048354671 cites W2324324202 @default.
W3048354671 cites W2327505152 @default.
W3048354671 cites W2395632793 @default.
W3048354671 cites W2538498412 @default.
W3048354671 cites W2593153219 @default.
W3048354671 cites W2752917923 @default.
W3048354671 cites W3104811023 @default.
W3048354671 cites W4248048101 @default.
W3048354671 cites W4248933783 @default.
W3048354671 doi "https://doi.org/10.1103/physrevb.102.064101" @default.
W3048354671 hasPublicationYear "2020" @default.
W3048354671 type Work @default.
W3048354671 sameAs 3048354671 @default.
W3048354671 citedByCount "3" @default.
W3048354671 countsByYear W30483546712021 @default.
W3048354671 countsByYear W30483546712023 @default.
W3048354671 crossrefType "journal-article" @default.
W3048354671 hasAuthorship W3048354671A5026943357 @default.
W3048354671 hasAuthorship W3048354671A5059329197 @default.
W3048354671 hasConcept C121332964 @default.
W3048354671 hasConcept C132378524 @default.
W3048354671 hasConcept C135508586 @default.
W3048354671 hasConcept C147120987 @default.
W3048354671 hasConcept C147597530 @default.
W3048354671 hasConcept C159467904 @default.
W3048354671 hasConcept C184779094 @default.
W3048354671 hasConcept C185592680 @default.
W3048354671 hasConcept C191486275 @default.
W3048354671 hasConcept C192562407 @default.
W3048354671 hasConcept C200902554 @default.
W3048354671 hasConcept C26065003 @default.
W3048354671 hasConcept C26873012 @default.
W3048354671 hasConcept C2777692963 @default.