Energy straggling of protons through thin solid foils

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The energy straggling for protons impinging on thin solid films of Al, Si, Zn and Au was studied by means of a theoretical model. The different mechanisms involved in the energy dispersion were also investigated. It was found that the energy dispersion produced by single-particle collisions with val...

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Autores principales: Arboó, D.G., Gravielle, M.S., Miraglia, J.E., Eckardt, J.C., Lantschner, G.H., Famaá, M., Arista, N.R.
Formato: JOUR
Materias:
Approximation theory
Atomic force microscopy
Atomic physics
Band structure
Crystal atomic structure
Crystal impurities
Dielectric materials
Electrons
Impact ionization
Ion beams
Mathematical models
Solids
Surface roughness
Targets
Thin films
Transmission electron microscopy
Energy straggling
Single-particle collisions
Valence electrons
Proton irradiation
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_10502947_v65_n4_p429011_Arboo
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_10502947_v65_n4_p429011_Arboo
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spelling todo:paper_10502947_v65_n4_p429011_Arboo2023-10-03T15:59:22Z Energy straggling of protons through thin solid foils Arboó, D.G. Gravielle, M.S. Miraglia, J.E. Eckardt, J.C. Lantschner, G.H. Famaá, M. Arista, N.R. Approximation theory Atomic force microscopy Atomic physics Band structure Crystal atomic structure Crystal impurities Dielectric materials Electrons Impact ionization Ion beams Mathematical models Solids Surface roughness Targets Thin films Transmission electron microscopy Energy straggling Single-particle collisions Valence electrons Proton irradiation The energy straggling for protons impinging on thin solid films of Al, Si, Zn and Au was studied by means of a theoretical model. The different mechanisms involved in the energy dispersion were also investigated. It was found that the energy dispersion produced by single-particle collisions with valence electrons was the dominant contribution at low energies, and reached a saturation value when the velocity increased. Inner-shell straggling was found to be important at intermediate and high velocities. © Oxford University Press 2002. Fil:Gravielle, M.S. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Miraglia, J.E. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_10502947_v65_n4_p429011_Arboo
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Approximation theory
Atomic force microscopy
Atomic physics
Band structure
Crystal atomic structure
Crystal impurities
Dielectric materials
Electrons
Impact ionization
Ion beams
Mathematical models
Solids
Surface roughness
Targets
Thin films
Transmission electron microscopy
Energy straggling
Single-particle collisions
Valence electrons
Proton irradiation
spellingShingle Approximation theory
Atomic force microscopy
Atomic physics
Band structure
Crystal atomic structure
Crystal impurities
Dielectric materials
Electrons
Impact ionization
Ion beams
Mathematical models
Solids
Surface roughness
Targets
Thin films
Transmission electron microscopy
Energy straggling
Single-particle collisions
Valence electrons
Proton irradiation
Arboó, D.G.
Gravielle, M.S.
Miraglia, J.E.
Eckardt, J.C.
Lantschner, G.H.
Famaá, M.
Arista, N.R.
Energy straggling of protons through thin solid foils
topic_facet Approximation theory
Atomic force microscopy
Atomic physics
Band structure
Crystal atomic structure
Crystal impurities
Dielectric materials
Electrons
Impact ionization
Ion beams
Mathematical models
Solids
Surface roughness
Targets
Thin films
Transmission electron microscopy
Energy straggling
Single-particle collisions
Valence electrons
Proton irradiation
description The energy straggling for protons impinging on thin solid films of Al, Si, Zn and Au was studied by means of a theoretical model. The different mechanisms involved in the energy dispersion were also investigated. It was found that the energy dispersion produced by single-particle collisions with valence electrons was the dominant contribution at low energies, and reached a saturation value when the velocity increased. Inner-shell straggling was found to be important at intermediate and high velocities. © Oxford University Press 2002.
format JOUR
author Arboó, D.G.
Gravielle, M.S.
Miraglia, J.E.
Eckardt, J.C.
Lantschner, G.H.
Famaá, M.
Arista, N.R.
author_facet Arboó, D.G.
Gravielle, M.S.
Miraglia, J.E.
Eckardt, J.C.
Lantschner, G.H.
Famaá, M.
Arista, N.R.
author_sort Arboó, D.G.
title Energy straggling of protons through thin solid foils
title_short Energy straggling of protons through thin solid foils
title_full Energy straggling of protons through thin solid foils
title_fullStr Energy straggling of protons through thin solid foils
title_full_unstemmed Energy straggling of protons through thin solid foils
title_sort energy straggling of protons through thin solid foils
url http://hdl.handle.net/20.500.12110/paper_10502947_v65_n4_p429011_Arboo
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AT graviellems energystragglingofprotonsthroughthinsolidfoils
AT miragliaje energystragglingofprotonsthroughthinsolidfoils
AT eckardtjc energystragglingofprotonsthroughthinsolidfoils
AT lantschnergh energystragglingofprotonsthroughthinsolidfoils
AT famaam energystragglingofprotonsthroughthinsolidfoils
AT aristanr energystragglingofprotonsthroughthinsolidfoils
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