Xw. Zhou et Hng. Wadley, The low energy ion assisted control of interfacial structure: ion incidentangle effects, SURF SCI, 487(1-3), 2001, pp. 159-170
It is difficult to maintain smooth unmixed interfaces during the vapor depo
sition of giant magnetoresistive multilayers, especially as the number of l
ayers is increased. Recent atomistic modeling of normal incident angle ion
impacts with model Ni/Cu/Ni multilayer surfaces have indicated that low ene
rgy (3 eV) inert gas ion bombardment significantly reduced the roughness of
Cu on Ni interfaces without causing interlayer mixing. Higher ion energies
(12 eV or above) were necessary to achieve similar smoothing of the Ni on
Cu interface, but this was accompanied by extensive mixing between the surf
ace Ni atoms and the underlying Cu atoms by an impact ion induced exchange
mechanism. Here, molecular dynamics simulations have been used to explore t
he effect of varying the incident ion angle during 12 eV Ar+ and Xe+ ion bo
mbardment of a model Ni on Cu surface. The results indicate that increasing
the incident ion angle up to 70 degrees reduced the probability of intermi
xing while retaining most of the surface flattening effect seen in the prev
ious study. A low combination of interfacial roughness and intermixing was
obtained for an incident ion angle of approximately 60 degrees. The heavier
Xe+ ions were found to transfer more momentum to the surface atoms than th
e lighter Ar+ ions, and resulted in significantly more mixing at all angles
of incidence. (C) 2001 Elsevier Science B.V. All rights reserved.