The growth of manganese layers on Si(1 0 0) at room temperature: A photoelectron spectroscopy study |
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Authors: | C.A. Nolph P. Reinke |
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Affiliation: | a University of Virgina, Department of Materials Science and Engineering, 395 McCormick Road, Charlottesville, VA 22904, USA b National Synchrotron Light Source, Brookhaven National Laboratory, Upton, NY 11973-5000, USA |
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Abstract: | The combination of spin-and charge based electronics in future devices requires the magnetic doping of group IV semiconductors, and the formation of ferromagnetic contacts. The doping of Mn with Si is one of the material systems which is discussed in this context. The present study focuses on the growth of Mn on a Si(100)(2x1) surface, and the evolution of the surface was observed as a function of Mn coverage with synchrotron-based photoelectron spectroscopy. The reaction of Mn with the Si(100) surface at room temperature leads the formation of silicide at the boundary between the Si substrate and the Mn-overlayer, presumably with MnSi stoichiometry. The residual sub-oxide reacts with the Mn and therefore incorporates a few percent of Mn-O-Si at the interface. The analysis of the sub-oxide composition indicates that the Si+1 component is the most reactive oxidation state. The overlayer is dominated by Mn, either as Mn-metal or as a Mn-rich silicide phase, and the metallic layer introduces a band bending in Si. As a consequence of our observations, including information from a recent STM study, the formation of ferromagnetic contacts which require ideally a flat and compositionally homogenous overlayer, cannot be achieved through room temperature deposition of Mn on the Si(100) (2x1) surface. The influence of residual oxides and surface defects on the growth process will be further investigated. |
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Keywords: | Manganese Silicon(1 0 0) Silicide Photoelectron spectroscopy Spintronics |
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