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New characterization method of ion current-density profile based on damage distribution of Ga+ focused-ion beam implantation in GaAs
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1993
Year
Tail ExtensionNuclear PhysicsEngineeringMicroscopyIon Beam InstrumentationSemiconductor DeviceX-ray ImagingIon ImplantationGaussian ProfileNew Characterization MethodDamage DistributionIon BeamInstrumentationRadiation ImagingIon EmissionHealth SciencesElectrical EngineeringPhysicsIon SpotSingle Event EffectsApplied PhysicsElectron MicroscopeIon Current-density Profile
A new method is reported for characterizing focused ion probe current distributions based on the comparison between damage simulations and transmission electron microscopy observations. Several focused-ion beam operation conditions were modeled, such as low-to-high source emission currents and variable beam acceptances. At low current and small acceptance, the ion spot exhibits a nearly Gaussian profile, otherwise larger tails are evidenced which can be modeled either by Pearson or ‘‘bi-Gaussian’’ distributions. The sensitivity of the procedure to the tail extension is highlighted.