Low temperature epitaxial silicon film growth using high vacuum electron-cyclotron-resonance plasma deposition

Low temperature epitaxial silicon film growth using high vacuum electron-cyclotron-resonance plasma deposition DeBoer, Scott J. ; Dalal, Vikram L. ; Chumanov, George ; Bartels, Randy "This work was supported in part by a fellowship from the Catron foundation for Scott DeBoer, and in part by a grant from NREL." We report on the growth technique and electrical properties of epitaxial Si films grown at low temperatures using an electron-cyclotron-resonance plasma deposition technique. We have used standard high vacuum apparatus to grow high quality films at 450–525 °C. A critical step in achieving high quality films is an in situ hydrogen plasma cleaning of the wafer before growth. We have systematically studied the influence of ion bombardment during growth by biasing the substrate, and find that the films are crystalline for substrate bias voltages less negative than about –15 V, but become polycrystalline as the magnitude of the negative bias is increased. The crystallinity of the film was measured using Raman spectroscopy. The undoped films are n type with carrier concentrations in the 1016–1017 cm – 3 range. The Hall mobilities measured for the films are comparable to values obtained in bulk Si crystals. We can achieve abrupt profiles in carrier concentrations between the heavy doped substrate and the epilayer, with no evidence of diffusion. Colorado State University. Libraries 1995 text ; image application/pdf ECErab00001.pdf FACFECEN100546ARTI eng c1995 American Institute of Physics

Low temperature epitaxial silicon film growth using high vacuum electron-cyclotron-resonance plasma deposition

DeBoer, Scott J. ; Dalal, Vikram L. ; Chumanov, George ; Bartels, Randy

"This work was supported in part by a fellowship from the Catron foundation for Scott DeBoer, and in part by a grant from NREL."

We report on the growth technique and electrical properties of epitaxial Si films grown at low temperatures using an electron-cyclotron-resonance plasma deposition technique. We have used standard high vacuum apparatus to grow high quality films at 450–525 °C. A critical step in achieving high quality films is an in situ hydrogen plasma cleaning of the wafer before growth. We have systematically studied the influence of ion bombardment during growth by biasing the substrate, and find that the films are crystalline for substrate bias voltages less negative than about –15 V, but become polycrystalline as the magnitude of the negative bias is increased. The crystallinity of the film was measured using Raman spectroscopy. The undoped films are n type with carrier concentrations in the 1016–1017 cm – 3 range. The Hall mobilities measured for the films are comparable to values obtained in bulk Si crystals. We can achieve abrupt profiles in carrier concentrations between the heavy doped substrate and the epilayer, with no evidence of diffusion.

Colorado State University. Libraries

1995

text ; image

application/pdf

ECErab00001.pdf

FACFECEN100546ARTI

eng

c1995 American Institute of Physics