SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2951400909> ?p ?o ?g. }

Showing items 1 to 100 of ±159 with 100 items per page.

W2951400909 endingPage "055003" @default.
W2951400909 startingPage "055003" @default.
W2951400909 abstract "We describe the development of a new object kinetic Monte Carlo code where the elementary defect objects are off-lattice atomistic configurations. Atomic-level transitions are used to transform and translate objects, to split objects and to merge them together. This gradually constructs a database of atomic configurations -- a set of relevant defect objects and their possible events generated on-the-fly. Elastic interactions are handled within objects with empirical potentials at short distances, and between spatially distinct objects using the dipole tensor formalism. The model is shown to evolve mobile interstitial clusters in tungsten faster than an equivalent molecular dynamics simulation, even at elevated temperatures. We apply the model to the evolution of complex defects generated using molecular dynamics simulations of primary radiation damage in tungsten. We show that we can evolve defect structures formed in cascade simulations to experimentally observable timescales of seconds while retaining atomistic detail. We conclude that the first few nanoseconds of simulation following cascade initiation would be better performed using molecular dynamics, as this will capture some of the near-temperature-independent evolution of small highly-mobile interstitial clusters. We also conclude that, for the 20keV PKA cascades annealing simulations considered here, internal relaxations of sessile objects difficult to capture using conventional object KMC with idealised object geometries establish the conditions for long timescale evolution." @default.
W2951400909 created "2019-06-27" @default.
W2951400909 creator A5005837258 @default.
W2951400909 creator A5043472004 @default.
W2951400909 creator A5052212156 @default.
W2951400909 date "2019-05-13" @default.
W2951400909 modified "2023-09-24" @default.
W2951400909 title "Atomistic-object kinetic Monte Carlo simulations of irradiation damage in tungsten" @default.
W2951400909 cites W1560780428 @default.
W2951400909 cites W1590003705 @default.
W2951400909 cites W1967331768 @default.
W2951400909 cites W1980272483 @default.
W2951400909 cites W1982033801 @default.
W2951400909 cites W1982566112 @default.
W2951400909 cites W1984241054 @default.
W2951400909 cites W1987113648 @default.
W2951400909 cites W1993595318 @default.
W2951400909 cites W1996443383 @default.
W2951400909 cites W1997665222 @default.
W2951400909 cites W2000779144 @default.
W2951400909 cites W2007103315 @default.
W2951400909 cites W2009768937 @default.
W2951400909 cites W2012267105 @default.
W2951400909 cites W2014013263 @default.
W2951400909 cites W2016622504 @default.
W2951400909 cites W2019465613 @default.
W2951400909 cites W2020384606 @default.
W2951400909 cites W2027260909 @default.
W2951400909 cites W2028313208 @default.
W2951400909 cites W2028349080 @default.
W2951400909 cites W2035266068 @default.
W2951400909 cites W2035605788 @default.
W2951400909 cites W2038828876 @default.
W2951400909 cites W2041080519 @default.
W2951400909 cites W2055021997 @default.
W2951400909 cites W2056955066 @default.
W2951400909 cites W2057648175 @default.
W2951400909 cites W2058704490 @default.
W2951400909 cites W2060690451 @default.
W2951400909 cites W2063136263 @default.
W2951400909 cites W2063290690 @default.
W2951400909 cites W2066847360 @default.
W2951400909 cites W2070169038 @default.
W2951400909 cites W2072140803 @default.
W2951400909 cites W2074787141 @default.
W2951400909 cites W2074901566 @default.
W2951400909 cites W2078534659 @default.
W2951400909 cites W2080057785 @default.
W2951400909 cites W2084444670 @default.
W2951400909 cites W2088700531 @default.
W2951400909 cites W2095921114 @default.
W2951400909 cites W2120775807 @default.
W2951400909 cites W2124457737 @default.
W2951400909 cites W2139062161 @default.
W2951400909 cites W2159533171 @default.
W2951400909 cites W2164496520 @default.
W2951400909 cites W2228294132 @default.
W2951400909 cites W2322235676 @default.
W2951400909 cites W2334878223 @default.
W2951400909 cites W2466352655 @default.
W2951400909 cites W2508581235 @default.
W2951400909 cites W2512062633 @default.
W2951400909 cites W2513066629 @default.
W2951400909 cites W2559835314 @default.
W2951400909 cites W2561292701 @default.
W2951400909 cites W2562960615 @default.
W2951400909 cites W2737627581 @default.
W2951400909 cites W2765536396 @default.
W2951400909 cites W2766858243 @default.
W2951400909 cites W2768708726 @default.
W2951400909 cites W2792633445 @default.
W2951400909 cites W2793864350 @default.
W2951400909 cites W2883675867 @default.
W2951400909 cites W2888376502 @default.
W2951400909 cites W2889532044 @default.
W2951400909 cites W2962961462 @default.
W2951400909 cites W2998947153 @default.
W2951400909 cites W3103239263 @default.
W2951400909 cites W4246935669 @default.
W2951400909 cites W657501189 @default.
W2951400909 doi "https://doi.org/10.1088/1361-651x/ab1a1e" @default.
W2951400909 hasPublicationYear "2019" @default.
W2951400909 type Work @default.
W2951400909 sameAs 2951400909 @default.
W2951400909 citedByCount "12" @default.
W2951400909 countsByYear W29514009092019 @default.
W2951400909 countsByYear W29514009092020 @default.
W2951400909 countsByYear W29514009092021 @default.
W2951400909 countsByYear W29514009092022 @default.
W2951400909 countsByYear W29514009092023 @default.
W2951400909 crossrefType "journal-article" @default.
W2951400909 hasAuthorship W2951400909A5005837258 @default.
W2951400909 hasAuthorship W2951400909A5043472004 @default.
W2951400909 hasAuthorship W2951400909A5052212156 @default.
W2951400909 hasBestOaLocation W29514009092 @default.
W2951400909 hasConcept C105795698 @default.
W2951400909 hasConcept C121332964 @default.
W2951400909 hasConcept C121864883 @default.