Quantitative surface photovoltage spectroscopy of semiconductor interfaces

L. Kronik; M. Leibovitch; E. Fefer; L. Burstein; Yoram Shapira

doi:10.1007/BF02659702

Quantitative surface photovoltage spectroscopy of semiconductor interfaces

L. Kronik^*, M. Leibovitch, E. Fefer, L. Burstein, Yoram Shapira

^*Corresponding author for this work

Department of Electrical Engineering - Physical Eng.

Tel Aviv University

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

27 Scopus citations

Abstract

A comprehensive and quantitative method for extracting the important parameters of interface states is presented. The method is based on wavelength-, intensity-, and time-resolved surface photovoltage spectroscopy, as well as on measurements as a function of the thickness of an overlayer. Data analysis provides detailed information about interface state properties, including their energy position and distribution, density, and the transition probabilities, i.e. their thermal and optical cross sections. It is also possible to distinguish between surface and bulk states, and determine the spatial site of the states in the case of a heterostructure. Experimental examples for various III-V and II-VI compound semiconductors are given.

Original language	English
Pages (from-to)	379-385
Number of pages	7
Journal	Journal of Electronic Materials
Volume	24
Issue number	4
DOIs	https://doi.org/10.1007/BF02659702
State	Published - Apr 1995

Keywords

Interface states
surface photovoltage spectroscopy

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10.1007/BF02659702

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abstract = "A comprehensive and quantitative method for extracting the important parameters of interface states is presented. The method is based on wavelength-, intensity-, and time-resolved surface photovoltage spectroscopy, as well as on measurements as a function of the thickness of an overlayer. Data analysis provides detailed information about interface state properties, including their energy position and distribution, density, and the transition probabilities, i.e. their thermal and optical cross sections. It is also possible to distinguish between surface and bulk states, and determine the spatial site of the states in the case of a heterostructure. Experimental examples for various III-V and II-VI compound semiconductors are given.",

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author = "L. Kronik and M. Leibovitch and E. Fefer and L. Burstein and Yoram Shapira",

year = "1995",

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AU - Fefer, E.

AU - Burstein, L.

AU - Shapira, Yoram

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Y1 - 1995/4

N2 - A comprehensive and quantitative method for extracting the important parameters of interface states is presented. The method is based on wavelength-, intensity-, and time-resolved surface photovoltage spectroscopy, as well as on measurements as a function of the thickness of an overlayer. Data analysis provides detailed information about interface state properties, including their energy position and distribution, density, and the transition probabilities, i.e. their thermal and optical cross sections. It is also possible to distinguish between surface and bulk states, and determine the spatial site of the states in the case of a heterostructure. Experimental examples for various III-V and II-VI compound semiconductors are given.

AB - A comprehensive and quantitative method for extracting the important parameters of interface states is presented. The method is based on wavelength-, intensity-, and time-resolved surface photovoltage spectroscopy, as well as on measurements as a function of the thickness of an overlayer. Data analysis provides detailed information about interface state properties, including their energy position and distribution, density, and the transition probabilities, i.e. their thermal and optical cross sections. It is also possible to distinguish between surface and bulk states, and determine the spatial site of the states in the case of a heterostructure. Experimental examples for various III-V and II-VI compound semiconductors are given.

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KW - surface photovoltage spectroscopy

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Quantitative surface photovoltage spectroscopy of semiconductor interfaces

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Keywords

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