Growth and characterization of molecular beam epitaxial GaAs layers on porous silicon

T. L. Lin; L. Sadwick; K. L. Wang; Y. C. Kao; R. Hull; C. W. Nieh; D. N. Jamieson; J. K. Liu

doi:10.1063/1.98821

Growth and characterization of molecular beam epitaxial GaAs layers on porous silicon

T. L. Lin
, L. Sadwick
, K. L. Wang
, Y. C. Kao
, R. Hull
, C. W. Nieh
, D. N. Jamieson
, J. K. Liu

College of Electrical Engineering and Computer Science

Research output: Contribution to journal › Article › peer-review

39 Citations (Scopus)

Abstract

GaAs layers have been grown on porous silicon (PS) substrates with good crystallinity by molecular beam epitaxy. In spite of the surface irregularity of PS substrates, no surface morphology deterioration was observed on epitaxial GaAs overlayers. A 10% Rutherford backscattering spectroscopy minimum channeling yield for GaAs-on-PS layers as compared to 16% for GaAs-on-Si layers grown under the same condition indicates a possible improvement of crystallinity when GaAs is grown on PS. Transmission electron microscopy reveals that the dominant defects in the GaAs-on-PS layers are microtwins and stacking faults, which originate from the GaAs/PS interface. GaAs is found to penetrate into the PS layers. n-type GaAs/p-type PS heterojunction diodes were fabricated with good rectifying characteristics.

Original language	English
Pages (from-to)	814-816
Number of pages	3
Journal	Applied Physics Letters
Volume	51
Issue number	11
DOIs	https://doi.org/10.1063/1.98821
Publication status	Published - 1987

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1063/1.98821

Cite this

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title = "Growth and characterization of molecular beam epitaxial GaAs layers on porous silicon",

abstract = "GaAs layers have been grown on porous silicon (PS) substrates with good crystallinity by molecular beam epitaxy. In spite of the surface irregularity of PS substrates, no surface morphology deterioration was observed on epitaxial GaAs overlayers. A 10\% Rutherford backscattering spectroscopy minimum channeling yield for GaAs-on-PS layers as compared to 16\% for GaAs-on-Si layers grown under the same condition indicates a possible improvement of crystallinity when GaAs is grown on PS. Transmission electron microscopy reveals that the dominant defects in the GaAs-on-PS layers are microtwins and stacking faults, which originate from the GaAs/PS interface. GaAs is found to penetrate into the PS layers. n-type GaAs/p-type PS heterojunction diodes were fabricated with good rectifying characteristics.",

author = "Lin, \{T. L.\} and L. Sadwick and Wang, \{K. L.\} and Kao, \{Y. C.\} and R. Hull and Nieh, \{C. W.\} and Jamieson, \{D. N.\} and Liu, \{J. K.\}",

year = "1987",

doi = "10.1063/1.98821",

language = "English",

volume = "51",

pages = "814--816",

journal = "Applied Physics Letters",

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T1 - Growth and characterization of molecular beam epitaxial GaAs layers on porous silicon

AU - Lin, T. L.

AU - Sadwick, L.

AU - Wang, K. L.

AU - Kao, Y. C.

AU - Hull, R.

AU - Nieh, C. W.

AU - Jamieson, D. N.

AU - Liu, J. K.

PY - 1987

Y1 - 1987

N2 - GaAs layers have been grown on porous silicon (PS) substrates with good crystallinity by molecular beam epitaxy. In spite of the surface irregularity of PS substrates, no surface morphology deterioration was observed on epitaxial GaAs overlayers. A 10% Rutherford backscattering spectroscopy minimum channeling yield for GaAs-on-PS layers as compared to 16% for GaAs-on-Si layers grown under the same condition indicates a possible improvement of crystallinity when GaAs is grown on PS. Transmission electron microscopy reveals that the dominant defects in the GaAs-on-PS layers are microtwins and stacking faults, which originate from the GaAs/PS interface. GaAs is found to penetrate into the PS layers. n-type GaAs/p-type PS heterojunction diodes were fabricated with good rectifying characteristics.

AB - GaAs layers have been grown on porous silicon (PS) substrates with good crystallinity by molecular beam epitaxy. In spite of the surface irregularity of PS substrates, no surface morphology deterioration was observed on epitaxial GaAs overlayers. A 10% Rutherford backscattering spectroscopy minimum channeling yield for GaAs-on-PS layers as compared to 16% for GaAs-on-Si layers grown under the same condition indicates a possible improvement of crystallinity when GaAs is grown on PS. Transmission electron microscopy reveals that the dominant defects in the GaAs-on-PS layers are microtwins and stacking faults, which originate from the GaAs/PS interface. GaAs is found to penetrate into the PS layers. n-type GaAs/p-type PS heterojunction diodes were fabricated with good rectifying characteristics.

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JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 11

ER -

Growth and characterization of molecular beam epitaxial GaAs layers on porous silicon

Abstract

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