New silicon hydrogen infrared vibrational band associated to HSiCl configurations in an amorphous silicon matrix: Green's function theory approach

J. Chevallier; S. Kalem; J. Bourneix; M. Vandevyver

doi:10.1016/0378-4363(83)90680-0

New silicon hydrogen infrared vibrational band associated to HSiCl configurations in an amorphous silicon matrix: Green's function theory approach

J. Chevallier, S. Kalem, J. Bourneix, M. Vandevyver

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

9 Citations (Scopus)

Abstract

The infrared transmission spectra of hydrogenated and chlorinated amorphous silicon samples show the appearance of a new silicon hydrogen induced band at 740 cm^-1. This band is due to HSiCl species where hydrogen and chlorine are bound to the same silicon atom. Green's-function theory is used in order to calculate the localized vibrational mode frequencies of various SiX, SiX₂ and SiXX' species.

Original language	English
Pages (from-to)	874-876
Number of pages	3
Journal	Physica B+C
Volume	117-118
Issue number	PART 2
DOIs	https://doi.org/10.1016/0378-4363(83)90680-0
Publication status	Published - Mar 1983
Externally published	Yes

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title = "New silicon hydrogen infrared vibrational band associated to HSiCl configurations in an amorphous silicon matrix: Green's function theory approach",

abstract = "The infrared transmission spectra of hydrogenated and chlorinated amorphous silicon samples show the appearance of a new silicon hydrogen induced band at 740 cm-1. This band is due to HSiCl species where hydrogen and chlorine are bound to the same silicon atom. Green's-function theory is used in order to calculate the localized vibrational mode frequencies of various SiX, SiX2 and SiXX' species.",

author = "J. Chevallier and S. Kalem and J. Bourneix and M. Vandevyver",

year = "1983",

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doi = "10.1016/0378-4363(83)90680-0",

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AU - Chevallier, J.

AU - Kalem, S.

AU - Bourneix, J.

AU - Vandevyver, M.

PY - 1983/3

Y1 - 1983/3

N2 - The infrared transmission spectra of hydrogenated and chlorinated amorphous silicon samples show the appearance of a new silicon hydrogen induced band at 740 cm-1. This band is due to HSiCl species where hydrogen and chlorine are bound to the same silicon atom. Green's-function theory is used in order to calculate the localized vibrational mode frequencies of various SiX, SiX2 and SiXX' species.

AB - The infrared transmission spectra of hydrogenated and chlorinated amorphous silicon samples show the appearance of a new silicon hydrogen induced band at 740 cm-1. This band is due to HSiCl species where hydrogen and chlorine are bound to the same silicon atom. Green's-function theory is used in order to calculate the localized vibrational mode frequencies of various SiX, SiX2 and SiXX' species.

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U2 - 10.1016/0378-4363(83)90680-0

DO - 10.1016/0378-4363(83)90680-0

M3 - Article

AN - SCOPUS:4243466769

SN - 0378-4363

VL - 117-118

SP - 874

EP - 876

JO - Physica B+C

JF - Physica B+C

IS - PART 2

ER -

New silicon hydrogen infrared vibrational band associated to HSiCl configurations in an amorphous silicon matrix: Green's function theory approach

Abstract

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