COHESIVE ENERGY EFFECTS IN THE ATOMIC TRANSPORT INDUCED BY ION-BEAM MIXING

Authors
CHANG GS JUNG SM SONG JH KIM HB WOO JJ BYUN DH WHANG CN
Citation
Gs. Chang et al., COHESIVE ENERGY EFFECTS IN THE ATOMIC TRANSPORT INDUCED BY ION-BEAM MIXING, Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms, 121(1-4), 1997, pp. 244-250
Citations number
28
Categorie Soggetti
Physics, Nuclear","Nuclear Sciences & Tecnology","Instument & Instrumentation
Journal title
Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atomsACNP
ISSN journal
0168583X
Volume
121
Issue
1-4
Year of publication
1997
Pages
244 - 250
Database
ISI
SICI code
0168-583X(1997)121:1-4<244:CEEITA>2.0.ZU;2-O
Abstract
Atomic transport in the radiation enhanced diffusion (RED) region has been studied from the shifts of a marker layer in ion beam mixed Pd/Co and Pd/Au bilayers, 80 keV Ar+ with a dose of 1.5 x 10(16) ions/cm(2) were irradiated into the bilayers at temperature region from 90 K to 700 K. In the Pd/Co system, the atomic flux of Pd (J(Pd)) transported across the interface is nearly same with J(Co) in the thermal spike re gion, while J(Pd) is always larger than J(Co) in the RED region. Howev er, in the Pd/Au system, J(Pd) is nearly same with J(Au) in both of th e thermal spike and RED regions. We have developed a model to describe the atomic transport in the RED region, which predicts that the atom with small cohesive energy has more mobility than that with large cohe sive energy.