About: Electron scattering

Property	Value
dbo:abstract	Die Elektronenstreuung (in manchen Zusammenhängen auch Elektronenstoß genannt) ist eine verbreitete Untersuchungsmethode speziell in der Atom- und Kernphysik. Hierbei werden Elektronen an dem Coulombpotential des Atoms gestreut, zudem wechselwirken die Spins von Elektron und Kern miteinander. Aus der Analyse der gestreuten Elektronen erhält man den Formfaktor der Ladungsverteilung, was der Fouriertransformierten der Ladungsverteilung entspricht. Man unterscheidet zwischen elastischer und inelastischer Streuung. Der differentielle Wirkungsquerschnitt beträgt: Aufgrund der Elektronenstreuung konnten insbesondere am Anfang des 20. Jahrhunderts große Fortschritte in der Erforschung der Struktur der Materie gemacht werden. Siehe beispielsweise Rutherford-Streuung. Auch die Struktur des Protons wurde mithilfe von Elektronenstreuung untersucht. (de) Electron scattering occurs when electrons are deviated from their original trajectory. This is due to the electrostatic forces within matter interaction or, if an external magnetic field is present, the electron may be deflected by the Lorentz force. This scattering typically happens with solids such as metals, semiconductors and insulators; and is a limiting factor in integrated circuits and transistors. The application of electron scattering is such that it can be used as a high resolution microscope for hadronic systems, that allows the measurement of the distribution of charges for nucleons and nuclear structure. The scattering of electrons has allowed us to understand that protons and neutrons are made up of the smaller elementary subatomic particles called quarks. Electrons may be scattered through a solid in several ways: * Not at all: no electron scattering occurs at all and the beam passes straight through. * Single scattering: when an electron is scattered just once. * Plural scattering: when electron(s) scatter several times. * Multiple scattering: when electron(s) scatter many times over. The likelihood of an electron scattering and the degree of the scattering is a probability function of the specimen thickness to the mean free path. (en) 電子散乱とは、電子が原子・原子核・素粒子などにより運動のエネルギーや方向を変えられること。 (ja) Lo scattering di elettroni è un processo tramite il quale un elettrone è deflesso dalla sua traiettoria originaria. Gli elettroni sono particelle cariche che risentono della forza elettromagnetica. Essi subiscono scattering da parte di altre particelle cariche interagendo attraverso forze elettrostatiche di Coulomb. Inoltre, se è presente un campo magnetico, un elettrone in movimento sarà deflesso dalla forza di Lorentz. Una descrizione estremamente accurata dello scattering elettronico, che include aspetti quantistica e relativistici, è data dalla elettrodinamica quantistica. I comuni processi di scattering elettronico includono: 1. * l'effetto Compton e lo scattering Rayleigh, in cui un elettrone assorbe un fotone e lo riemette; 2. * lo , dovuto all'interazione fra due elettroni; 3. * lo scattering Bhabha, diffusione tra un elettrone e un positrone; 4. * bremsstrahlung, in cui un elettrone viene deviato con un nucleo emettendo fotoni; 5. * scattering anelastico profondo, in cui elettroni ad elevata energia interagiscono con un nucleo scindendolo; 6. * radiazione di sincrotrone in cui un elettrone interagisce con un campo magnetico esterno ed emette un fotone. (it)
dbo:thumbnail	wiki-commons:Special:FilePath/Electron-beam_interac...ransmission_with_sample.jpg?width=300
dbo:wikiPageExternalLink	https://www.youtube.com/watch%3Fv=fI2C4VlR1OM http://education.jlab.org/pol/electron-scattering.html
dbo:wikiPageID	3201543 (xsd:integer)
dbo:wikiPageLength	46866 (xsd:nonNegativeInteger)
dbo:wikiPageRevisionID	1095937252 (xsd:integer)
dbo:wikiPageWikiLink	dbr:Proper_time dbr:Proton dbr:Quantum_electrodynamics dbr:Quark dbr:Rolf_Widerøe dbr:Elastic_collision dbr:Electric_charge dbr:Electric_current dbr:Julian_Schwinger dbr:Bhabha_scattering dbr:Deep_inelastic_scattering dbr:Inelastic_collision dbr:Electromagnetic_wave dbr:Electrostatic_force dbr:Photoelectric_effect dbr:Nuclear_structure dbr:Compton_scattering dbr:Cross_section_(physics) dbr:Matter_wave dbr:R-matrix dbr:Clinton_Davisson dbr:Electromagnetic_radiation dbr:Electron dbr:Electron_scattering dbr:Emil_Wiechert dbr:George_Johnstone_Stoney dbr:Gravitation dbr:Lester_Germer dbr:Lorentz_force dbr:Bohr_magneton dbr:Stanford_University dbr:Statcoulomb dbr:Particle_physics dbr:Richard_Laming dbr:Walter_Kaufmann_(physicist) dbr:Weak_interaction dbr:Force dbr:Bremsstrahlung dbr:Hadron dbr:Hendrik_Lorentz dbr:Atomic_nucleus dbc:Electron dbr:International_System_of_Units dbr:Inverse-square_law dbr:J._J._Thomson dbr:Arthur_Compton dbc:Scattering dbr:Charles-Augustin_de_Coulomb dbr:Larmor_formula dbr:Thomson_scattering dbr:Trajectory dbr:Wiggler_(synchrotron) dbr:Zeeman_effect dbr:Pieter_Zeeman dbr:Planck_relation dbr:Neutron dbr:Newton's_third_law dbr:Oliver_Heaviside dbr:RIKEN dbr:Yoshio_Nishina dbr:Lorentz_contraction dbr:Lorentz_factor dbr:Low-energy_electron_diffraction dbr:Washington_University dbr:Møller_scattering dbr:Y._H._Woo dbr:Mott_scattering dbr:Undulator dbr:Synchrotron dbr:Synchrotron_emission dbr:File:Action_of_the_Lorentz_force_bendi...f_an_electron_in_a_magnetic_field.gif dbr:File:Electron-beam_interaction_and_transmission_with_sample.jpg dbr:File:Moller_scattering_t-channel.svg dbr:File:Photoscat_feyn.png dbr:File:Stanford-linear-accelerator-usgs-ortho-kaminski-5900.jpg dbr:H._E._Farnsworth dbr:High-energy_electron_diffraction dbr:File:CoulombsLaw.svg dbr:File:Coulombslawgraph.svg
dbp:above	Types of Scattering (en)
dbp:abovestyle	background:#CEF2E0; (en)
dbp:caption	Pictorial description of how an electron beam may interact with a sample with nucleus N, and electron cloud of electron shells K,L,M. Showing transmitted electrons and elastic/inelastically scattered electrons. SE is a Secondary Electron ejected by the beam electron, emitting a characteristic photon γ. BSE is a Back-Scattered Electron, an electron which is scattered backwards instead of being transmitted through the sample. (en)
dbp:data	dbr:Elastic_collision dbr:Electric_charge dbr:Electric_current dbr:Bhabha_scattering dbr:Deep_inelastic_scattering dbr:Inelastic_collision dbr:Electrostatic_force dbr:Compton_scattering dbr:Electron dbr:Electron_scattering dbr:Gravitation dbr:Lorentz_force dbr:Particle_physics dbr:Weak_interaction dbr:Bremsstrahlung dbr:Thomson_scattering dbr:Low-energy_electron_diffraction dbr:Møller_scattering dbr:Mott_scattering dbr:Synchrotron_emission — (en) — Nuclei (en) [{{val\|1822.8884845\|}}]−1 u (en)
dbp:header	Electron (en) Scattering (en)
dbp:headerstyle	background:#CEF2E0; (en)
dbp:label	Categories (en) Mass (en) Spin (en) Types (en) Electric Charge (en) Forces/Effects (en) Interactions (en) Magnetic Moment (en) Measures (en) Particle (en)
dbp:wikiPageUsesTemplate	dbt:Citation_needed dbt:Frac dbt:Gaps dbt:Infobox dbt:Main dbt:Reflist dbt:See_also dbt:Short_description dbt:Val dbt:SubatomicParticle
dcterms:subject	dbc:Electron dbc:Scattering
rdf:type	owl:Thing
rdfs:comment	電子散乱とは、電子が原子・原子核・素粒子などにより運動のエネルギーや方向を変えられること。 (ja) Die Elektronenstreuung (in manchen Zusammenhängen auch Elektronenstoß genannt) ist eine verbreitete Untersuchungsmethode speziell in der Atom- und Kernphysik. Hierbei werden Elektronen an dem Coulombpotential des Atoms gestreut, zudem wechselwirken die Spins von Elektron und Kern miteinander. Aus der Analyse der gestreuten Elektronen erhält man den Formfaktor der Ladungsverteilung, was der Fouriertransformierten der Ladungsverteilung entspricht. Man unterscheidet zwischen elastischer und inelastischer Streuung. Der differentielle Wirkungsquerschnitt beträgt: (de) Electron scattering occurs when electrons are deviated from their original trajectory. This is due to the electrostatic forces within matter interaction or, if an external magnetic field is present, the electron may be deflected by the Lorentz force. This scattering typically happens with solids such as metals, semiconductors and insulators; and is a limiting factor in integrated circuits and transistors. Electrons may be scattered through a solid in several ways: (en) Lo scattering di elettroni è un processo tramite il quale un elettrone è deflesso dalla sua traiettoria originaria. Gli elettroni sono particelle cariche che risentono della forza elettromagnetica. Essi subiscono scattering da parte di altre particelle cariche interagendo attraverso forze elettrostatiche di Coulomb. Inoltre, se è presente un campo magnetico, un elettrone in movimento sarà deflesso dalla forza di Lorentz. Una descrizione estremamente accurata dello scattering elettronico, che include aspetti quantistica e relativistici, è data dalla elettrodinamica quantistica. (it)
rdfs:label	Elektronenstreuung (de) Electron scattering (en) Scattering di elettroni (it) 電子散乱 (ja)
rdfs:seeAlso	dbr:Quantum_electrodynamics dbr:Elastic_scattering dbr:Inelastic_scattering dbr:SLAC_National_Accelerator_Laboratory dbr:Radioactive_Isotope_Beam_Factory dbr:BaBar_experiment dbr:Stanford_Synchrotron_Radiation_Lightsource dbr:SCRIT
owl:sameAs	freebase:Electron scattering wikidata:Electron scattering http://ckb.dbpedia.org/resource/پەرشی_ئەلێکتڕۆنی dbpedia-de:Electron scattering dbpedia-it:Electron scattering dbpedia-ja:Electron scattering dbpedia-tr:Electron scattering https://global.dbpedia.org/id/MSWe
prov:wasDerivedFrom	wikipedia-en:Electron_scattering?oldid=1095937252&ns=0
foaf:depiction	wiki-commons:Special:FilePath/Stanford-linear-accelerator-usgs-ortho-kaminski-5900.jpg wiki-commons:Special:FilePath/Action_of_the_Lorentz...f_an_electron_in_a_magnetic_field.gif wiki-commons:Special:FilePath/CoulombsLaw.svg wiki-commons:Special:FilePath/Coulombslawgraph.svg wiki-commons:Special:FilePath/Electron-beam_interaction_and_transmission_with_sample.jpg wiki-commons:Special:FilePath/Moller_scattering_t-channel.svg wiki-commons:Special:FilePath/Photoscat_feyn.png
foaf:isPrimaryTopicOf	wikipedia-en:Electron_scattering
is dbo:knownFor of	dbr:Deepak_Mathur dbr:Robert_Hofstadter
is dbo:wikiPageRedirects of	dbr:Electron_Scattering dbr:Electron_scattering_experiment
is dbo:wikiPageWikiLink of	dbr:Proton dbr:Quantemol dbr:Samarium_hexaboride dbr:Elastic_scattering dbr:Electron_microscope dbr:Energetically_modified_cement dbr:Deepak_Mathur dbr:Hypernucleus dbr:Robert_Hofstadter dbr:Charge_radius dbr:Cynthia_Keppel dbr:Index_of_physics_articles_(E) dbr:Elizabeth_Beise dbr:George_C._Baldwin dbr:Electron_scattering dbr:Frank_Read dbr:Mössbauer_effect dbr:Crystal_momentum dbr:Benson_T._Chertok dbr:Main_sequence dbr:Weak_charge dbr:EPICS dbr:Dielectric_gas dbr:Fano_resonance dbr:Kadowaki–Woods_ratio dbr:List_of_Nobel_laureates_in_Physics dbr:Johan_Peter_Holtsmark dbr:Kamioka_Observatory dbr:Marshall_Rosenbluth dbr:Institute_of_Solid_State_Physics_(Russia) dbr:X-ray_Polarimeter_Satellite dbr:Klein_paradox dbr:Ultrabright_electron dbr:Sun_Weiguo dbr:Scattering_rate dbr:Momentum-transfer_cross_section dbr:Mott–Bethe_formula dbr:Muon_spin_spectroscopy dbr:Sherman_function dbr:Electron_Scattering dbr:Electron_scattering_experiment
is dbp:data of	dbr:Electron_scattering
is dbp:knownFor of	dbr:Robert_Hofstadter
is foaf:primaryTopic of	wikipedia-en:Electron_scattering