Influence of Substrate Surface Reconstruction on the Growth and Magnetic Properties of Fe on GaAs(001)
Abstract
We have studied the magnetic and structural properties of epitaxial bcc Fe(001) films grown at 175 C on molecular-beam epitaxy-prepared GaAs(001)-2*4 and -c(4*4) reconstructed surfaces, with film thicknesses ranging up to ~30 ML (~43 ). We present measurements of the thickness-dependent evolution of the magnetic properties of the Fe films as determined by in situ magneto-optic Kerr effect. We find that the magnetic properties and growth mode are similar for both 234 and c(434) reconstructions, although the initial adsorption sites and island nucleation as measured by scanning tunneling microscopy are clearly dominated by the substrate surface reconstruction. The onset of room-temperature ferromagnetism occurs at 6 ML for growth on both GaAs surface reconstructions. At this coverage, the measured Curie temperature (100 C) is significantly reduced from that of bulk alpha-Fe (770 C). The anisotropy is dominated by a uniaxial component such that the two (110) axes are inequivalent for all coverages studied. Shape anisotropy does not appear to play a significant role.
Document Details
- Document Type
- Technical Report
- Publication Date
- Mar 13, 1997
- Accession Number
- ADA482465
Entities
People
- Benjamin V. Shanabrook
- Berend T Jonker
- E. M. Kneedler
- Lloyd J. Whitman
- P. M. Thibado
- R. J. Wagner
Organizations
- United States Naval Research Laboratory