About: Binary collision approximation

An Entity of Type: Thing, from Named Graph: http://dbpedia.org, within Data Space: dbpedia.org

In condensed-matter physics, the binary collision approximation (BCA) is a heuristic used to more efficiently simulate the penetration depth and defect production by energetic ions (with kinetic energies in the kilo-electronvolt (keV) range or higher) in solids. In the method, the ion is approximated to travel through a material by experiencing a sequence of independent binary collisions with sample atoms (nuclei). Between the collisions, the ion is assumed to travel in a straight path, experiencing electronic stopping power, but losing no energy in collisions with nuclei.

Property	Value
dbo:abstract	In condensed-matter physics, the binary collision approximation (BCA) is a heuristic used to more efficiently simulate the penetration depth and defect production by energetic ions (with kinetic energies in the kilo-electronvolt (keV) range or higher) in solids. In the method, the ion is approximated to travel through a material by experiencing a sequence of independent binary collisions with sample atoms (nuclei). Between the collisions, the ion is assumed to travel in a straight path, experiencing electronic stopping power, but losing no energy in collisions with nuclei. (en)
dbo:thumbnail	wiki-commons:Special:FilePath/Bca_collisions.png?width=300
dbo:wikiPageExternalLink	http://edoc.mpg.de/287291
dbo:wikiPageID	26457064 (xsd:integer)
dbo:wikiPageLength	13853 (xsd:nonNegativeInteger)
dbo:wikiPageRevisionID	1122189201 (xsd:integer)
dbo:wikiPageWikiLink	dbr:Elastic_collision dbr:Interatomic_potential dbr:Electronvolt dbr:Monte_Carlo_simulation dbr:Crystallographic_defect dbr:Stopping_and_Range_of_Ions_in_Matter dbr:Stopping_power_(particle_radiation) dbr:Collision_cascade dbr:Computer_simulation dbc:Condensed_matter_physics dbr:Threshold_displacement_energy dbr:Ion dbr:Ion_implantation dbc:Computational_physics dbr:Molecular_dynamics dbr:Atom dbr:Atomic_nucleus dbc:Nuclear_physics dbr:Kinetic_energy dbr:Heuristic dbr:Impact_parameter dbr:Channelling_(physics) dbr:Solid dbr:Swift_heavy_ion dbr:Sputtering dbr:GeV dbr:Condensed-matter_physics dbr:COSIRES_conference dbr:File:Bca_collisions.png dbr:File:Linearcollisioncascade.png
dbp:wikiPageUsesTemplate	dbt:Commonscatinline dbt:Reflist dbt:Short_description
dcterms:subject	dbc:Condensed_matter_physics dbc:Computational_physics dbc:Nuclear_physics
rdfs:comment	In condensed-matter physics, the binary collision approximation (BCA) is a heuristic used to more efficiently simulate the penetration depth and defect production by energetic ions (with kinetic energies in the kilo-electronvolt (keV) range or higher) in solids. In the method, the ion is approximated to travel through a material by experiencing a sequence of independent binary collisions with sample atoms (nuclei). Between the collisions, the ion is assumed to travel in a straight path, experiencing electronic stopping power, but losing no energy in collisions with nuclei. (en)
rdfs:label	Binary collision approximation (en)
owl:sameAs	freebase:Binary collision approximation wikidata:Binary collision approximation https://global.dbpedia.org/id/4YYqb
prov:wasDerivedFrom	wikipedia-en:Binary_collision_approximation?oldid=1122189201&ns=0
foaf:depiction	wiki-commons:Special:FilePath/Bca_collisions.png wiki-commons:Special:FilePath/Linearcollisioncascade.png
foaf:isPrimaryTopicOf	wikipedia-en:Binary_collision_approximation
is dbo:wikiPageDisambiguates of	dbr:BCA
is dbo:wikiPageWikiLink of	dbr:BCA dbr:Interatomic_potential dbr:Monte_Carlo_method dbr:Stopping_and_Range_of_Ions_in_Matter dbr:Stopping_power_(particle_radiation) dbr:Collision_cascade dbr:Threshold_displacement_energy dbr:Ion_implantation dbr:Ion_track dbr:Channelling_(physics)
is foaf:primaryTopic of	wikipedia-en:Binary_collision_approximation