ErAs Island-Stacking Growth Technique for Engineering Textured Schottky Interfaces

Authors

Elliott R. Brown, Wright State University - Main CampusFollow
Tatyana B. Khromova, University of Virginia School of Engineering and Applied Science
Tatiana Globus, University of Virginia School of Engineering and Applied Science
Dwight L. Woolard, IEEE
James O. Jensen, U.S. Army Edgewood Chemical and Biological Center
Alexander Majewski, Goodrich Corporation

Document Type

Article

Publication Date

5-1-2006

Identifier/URL

40183195 (Pure); 33744797959 (QABO)

Abstract

We demonstrate a molecular beam epitaxy growth technique to create intentionally textured interfaces between semimetallic ErAs and GaAs that result in interface orientations that are different from the substrate. To grow the textured interfaces, ErAs is deposited on (100) GaAs and islands form in an island growth mode. Enough GaAs is then deposited to fill the space between islands with semiconductor. More ErAs is deposited on the Er As ∕ Ga As surface and the new ErAs islands are thought to nucleate on the exposed top surface of the partially covered islands. The process is repeated to “stack” the islands. By quadratically increasing the amount of ErAs deposited in each repetition, the islands form into cones/pyramids that coalesce into a complete film with an intentionally roughened interface. Compared to a smooth interface between ErAs and GaAs, the Schottky barrier height between textured ErAs and n - Ga As can be reduced from ∼ 0.81 to ∼ 0.52 eV , and the Schottky barrier height between ErAs and p - Ga As can be increased from ∼ 0.38 to ∼ 0.63 eV .

Repository Citation

Brown, E. R., Khromova, T. B., Globus, T., Woolard, D. L., Jensen, J. O., & Majewski, A. (2006). ErAs Island-Stacking Growth Technique for Engineering Textured Schottky Interfaces. Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures, 24 (3), 1483-1487.
https://corescholar.libraries.wright.edu/physics/1305

DOI

10.1116/1.2203642