This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulo… Mehr…
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulombic forces. Computer visualisation and animation techniques have been used extensively to display simulation results and to obtain information such as cluster ejection. In the study of radiation damage, they have also been used to interpret the damage caused to the lattice. For singly charged impacts (kinetic sputtering) in NaCl, it is found that there is a large amount of channelling and relatively low sputtering yields while for multiply charged impacts (potential sputtering) with [Ar]q+ (q = 1,4 and 8), a significant enhancement in the yields at low impact energies is observed. The higher energy single impact sputtering yields are much lower when compared with experimental results. Multiple impact simulations give yields that are more consistent with the observed experimental calculations. The models lead to a new explanation for the Coulomb explosion, which can occur when the surfaces of ionic systems are exposed to impact by highly charged particles. Buch (fremdspr.) Deerajen Ramasawmy Taschenbuch, LAP LAMBERT Academic Publishing, 08.09.2010, LAP LAMBERT Academic Publishing, 2010<
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This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulo… Mehr…
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulombic forces. Computer visualisation and animation techniques have been used extensively to display simulation results and to obtain information such as cluster ejection. In the study of radiation damage, they have also been used to interpret the damage caused to the lattice. For singly charged impacts (kinetic sputtering) in NaCl, it is found that there is a large amount of channelling and relatively low sputtering yields while for multiply charged impacts (potential sputtering) with [Ar]q+ (q = 1,4 and 8), a significant enhancement in the yields at low impact energies is observed. The higher energy single impact sputtering yields are much lower when compared with experimental results. Multiple impact simulations give yields that are more consistent with the observed experimental calculations. The models lead to a new explanation for the Coulomb explosion, which can occur when the surfaces of ionic systems are exposed to impact by highly charged particles. Buch (fremdspr.) Deerajen Ramasawmy Taschenbuch, LAP LAMBERT Academic Publishing, 10.09.2010, LAP LAMBERT Academic Publishing, 2010<
Orellfuessli.ch
Nr. 24307140. Versandkosten:Geen verzending naar uw bestemming., zzgl. Versandkosten Details...
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This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulo… Mehr…
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulombic forces. Computer visualisation and animation techniques have been used extensively to display simulation results and to obtain information such as cluster ejection. In the study of radiation damage, they have also been used to interpret the damage caused to the lattice. For singly charged impacts (kinetic sputtering) in NaCl, it is found that there is a large amount of channelling and relatively low sputtering yields while for multiply charged impacts (potential sputtering) with [Ar]q+ (q = 1,4 and 8), a significant enhancement in the yields at low impact energies is observed. The higher energy single impact sputtering yields are much lower when compared with experimental results. Multiple impact simulations give yields that are more consistent with the observed experimental calculations. The models lead to a new explanation for the Coulomb explosion, which can occur when the surfaces of ionic systems are exposed to impact by highly charged particles. in Ionic Materials Buch (fremdspr.) Bücher>Fremdsprachige Bücher>Englische Bücher, LAP LAMBERT Academic Publishing<
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This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulo… Mehr…
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulombic forces. Computer visualisation and animation techniques have been used extensively to display simulation results and to obtain information such as cluster ejection. In the study of radiation damage, they have also been used to interpret the damage caused to the lattice. For singly charged impacts (kinetic sputtering) in NaCl, it is found that there is a large amount of channelling and relatively low sputtering yields while for multiply charged impacts (potential sputtering) with [Ar]q+ (q = 1,4 and 8), a significant enhancement in the yields at low impact energies is observed. The higher energy single impact sputtering yields are much lower when compared with experimental results. Multiple impact simulations give yields that are more consistent with the observed experimental calculations. The models lead to a new explanation for the Coulomb explosion, which can occur when the surfaces of ionic systems are exposed to impact by highly charged particles. in Ionic Materials Buch (fremdspr.) Bücher>Fremdsprachige Bücher>Englische Bücher, LAP Lambert Academic Publishing<
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No. 24307140. Versandkosten:, Versandfertig in 2 - 3 Tagen, DE. (EUR 0.00) Details...
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This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulo… Mehr…
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulombic forces. Computer visualisation and animation techniques have been used extensively to display simulation results and to obtain information such as cluster ejection. In the study of radiation damage, they have also been used to interpret the damage caused to the lattice. For singly charged impacts (kinetic sputtering) in NaCl, it is found that there is a large amount of channelling and relatively low sputtering yields while for multiply charged impacts (potential sputtering) with [Ar]q+ (q = 1,4 and 8), a significant enhancement in the yields at low impact energies is observed. The higher energy single impact sputtering yields are much lower when compared with experimental results. Multiple impact simulations give yields that are more consistent with the observed experimental calculations. The models lead to a new explanation for the Coulomb explosion, which can occur when the surfaces of ionic systems are exposed to impact by highly charged particles. Boeken, Audioboeken & Kalenders / Boeken / Non-Fictie / Natuurwetenschappen / Fysica<
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This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulo… Mehr…
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulombic forces. Computer visualisation and animation techniques have been used extensively to display simulation results and to obtain information such as cluster ejection. In the study of radiation damage, they have also been used to interpret the damage caused to the lattice. For singly charged impacts (kinetic sputtering) in NaCl, it is found that there is a large amount of channelling and relatively low sputtering yields while for multiply charged impacts (potential sputtering) with [Ar]q+ (q = 1,4 and 8), a significant enhancement in the yields at low impact energies is observed. The higher energy single impact sputtering yields are much lower when compared with experimental results. Multiple impact simulations give yields that are more consistent with the observed experimental calculations. The models lead to a new explanation for the Coulomb explosion, which can occur when the surfaces of ionic systems are exposed to impact by highly charged particles. Buch (fremdspr.) Deerajen Ramasawmy Taschenbuch, LAP LAMBERT Academic Publishing, 08.09.2010, LAP LAMBERT Academic Publishing, 2010<
Nr. 24307140. Versandkosten:Lieferzeiten außerhalb der Schweiz 3 bis 21 Werktage, , Versandfertig innert 6 - 9 Werktagen, zzgl. Versandkosten. (EUR 17.21)
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulo… Mehr…
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulombic forces. Computer visualisation and animation techniques have been used extensively to display simulation results and to obtain information such as cluster ejection. In the study of radiation damage, they have also been used to interpret the damage caused to the lattice. For singly charged impacts (kinetic sputtering) in NaCl, it is found that there is a large amount of channelling and relatively low sputtering yields while for multiply charged impacts (potential sputtering) with [Ar]q+ (q = 1,4 and 8), a significant enhancement in the yields at low impact energies is observed. The higher energy single impact sputtering yields are much lower when compared with experimental results. Multiple impact simulations give yields that are more consistent with the observed experimental calculations. The models lead to a new explanation for the Coulomb explosion, which can occur when the surfaces of ionic systems are exposed to impact by highly charged particles. Buch (fremdspr.) Deerajen Ramasawmy Taschenbuch, LAP LAMBERT Academic Publishing, 10.09.2010, LAP LAMBERT Academic Publishing, 2010<
Nr. 24307140. Versandkosten:Geen verzending naar uw bestemming., zzgl. Versandkosten
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulo… Mehr…
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulombic forces. Computer visualisation and animation techniques have been used extensively to display simulation results and to obtain information such as cluster ejection. In the study of radiation damage, they have also been used to interpret the damage caused to the lattice. For singly charged impacts (kinetic sputtering) in NaCl, it is found that there is a large amount of channelling and relatively low sputtering yields while for multiply charged impacts (potential sputtering) with [Ar]q+ (q = 1,4 and 8), a significant enhancement in the yields at low impact energies is observed. The higher energy single impact sputtering yields are much lower when compared with experimental results. Multiple impact simulations give yields that are more consistent with the observed experimental calculations. The models lead to a new explanation for the Coulomb explosion, which can occur when the surfaces of ionic systems are exposed to impact by highly charged particles. in Ionic Materials Buch (fremdspr.) Bücher>Fremdsprachige Bücher>Englische Bücher, LAP LAMBERT Academic Publishing<
- No. 24307140. Versandkosten:, Lieferbar in 2 - 3 Tage, DE. (EUR 0.00)
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulo… Mehr…
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulombic forces. Computer visualisation and animation techniques have been used extensively to display simulation results and to obtain information such as cluster ejection. In the study of radiation damage, they have also been used to interpret the damage caused to the lattice. For singly charged impacts (kinetic sputtering) in NaCl, it is found that there is a large amount of channelling and relatively low sputtering yields while for multiply charged impacts (potential sputtering) with [Ar]q+ (q = 1,4 and 8), a significant enhancement in the yields at low impact energies is observed. The higher energy single impact sputtering yields are much lower when compared with experimental results. Multiple impact simulations give yields that are more consistent with the observed experimental calculations. The models lead to a new explanation for the Coulomb explosion, which can occur when the surfaces of ionic systems are exposed to impact by highly charged particles. in Ionic Materials Buch (fremdspr.) Bücher>Fremdsprachige Bücher>Englische Bücher, LAP Lambert Academic Publishing<
- No. 24307140. Versandkosten:, Versandfertig in 2 - 3 Tagen, DE. (EUR 0.00)
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulo… Mehr…
This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulombic forces. Computer visualisation and animation techniques have been used extensively to display simulation results and to obtain information such as cluster ejection. In the study of radiation damage, they have also been used to interpret the damage caused to the lattice. For singly charged impacts (kinetic sputtering) in NaCl, it is found that there is a large amount of channelling and relatively low sputtering yields while for multiply charged impacts (potential sputtering) with [Ar]q+ (q = 1,4 and 8), a significant enhancement in the yields at low impact energies is observed. The higher energy single impact sputtering yields are much lower when compared with experimental results. Multiple impact simulations give yields that are more consistent with the observed experimental calculations. The models lead to a new explanation for the Coulomb explosion, which can occur when the surfaces of ionic systems are exposed to impact by highly charged particles. Boeken, Audioboeken & Kalenders / Boeken / Non-Fictie / Natuurwetenschappen / Fysica<
Nr. 2LGHTB2ALQE. Versandkosten:, Lieferzeit: binnen 5 - 7 werkdagen Days, NL. (EUR 0.00)
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This book describes MD simulations of sputtering and radiation damage in ionic materials. The multipole method implemented within an MD code has been used to evaluate the long-range Coulombic forces. Computer visualisation and animation techniques have been used extensively to display simulation results and to obtain information such as cluster ejection. In the study of radiation damage, they have also been used to interpret the damage caused to the lattice. For singly charged impacts (kinetic sputtering) in NaCl, it is found that there is a large amount of channelling and relatively low sputtering yields while for multiply charged impacts (potential sputtering) with [Ar]q+ (q = 1,4 and 8), a significant enhancement in the yields at low impact energies is observed. The higher energy single impact sputtering yields are much lower when compared with experimental results. Multiple impact simulations give yields that are more consistent with the observed experimental calculations. The models lead to a new explanation for the Coulomb explosion, which can occur when the surfaces of ionic systems are exposed to impact by highly charged particles.
Detailangaben zum Buch - Molecular Dynamics Simulations of Sputtering and Radiation Damage: in Ionic Materials
EAN (ISBN-13): 9783838399294 ISBN (ISBN-10): 3838399293 Gebundene Ausgabe Taschenbuch Erscheinungsjahr: 2010 Herausgeber: LAP Lambert Acad. Publ. 180 Seiten Gewicht: 0,287 kg Sprache: eng/Englisch
Buch in der Datenbank seit 2008-05-29T04:15:15+02:00 (Berlin) Detailseite zuletzt geändert am 2021-11-20T16:57:56+01:00 (Berlin) ISBN/EAN: 9783838399294
ISBN - alternative Schreibweisen: 3-8383-9929-3, 978-3-8383-9929-4 Alternative Schreibweisen und verwandte Suchbegriffe: Titel des Buches: material damage, simulations, sputtering