Abstract
We report on results that compare the planar confinement, diffusion, and surface segregation of Si δ-doped in GaAs for growth by gas source molecular-beam epitaxy and conventional molecular-beam epitaxy. For gas source molecular-beam epitaxy growth, Si diffusion versus inverse anneal temperature shows a unique two component Arrhenius form in which activation energies for diffusion differ by the fundamental GaAs band gap energy, 1.5 eV. Capacitance–voltage profiles of as-grown δ-doped Be and Si layers in GaAs produce record full width at half-maximum, 1.9 and 2.4 nm, respectively, for the gas source molecular-beam epitaxy case.
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