Isotope dependence of the lifetime of the 1136-cm-1 vibration of oxygen in silicon

K. K. Kohli; Gordon Davies; N. Q. Vinh; D. West; S. K. Estreicher; T. Gregorkiewicz; I. Izeddin; K. M. Itoh

doi:10.1103/PhysRevLett.96.225503

Isotope dependence of the lifetime of the 1136-cm-1 vibration of oxygen in silicon

K. K. Kohli, Gordon Davies, N. Q. Vinh, D. West, S. K. Estreicher, T. Gregorkiewicz, I. Izeddin, K. M. Itoh

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研究成果: Article › 査読

33 被引用数 (Scopus)

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By simply changing the isotopes of the Si atoms that neighbor an oxygen Oi atom in crystalline silicon, the measured decay rate τ of the asymmetric-stretch vibration (ν3=1136cm-1) of oxygen (Oi) in silicon changes by a factor of ∼2.5. These data establish that ν3 decays by creating one ν1 symmetric-stretch, local-vibrational mode of the Si-Oi-Si structure. If the residual energy (ν3-ν1) is less than the maximum frequency νm of the host lattice, as for Si28-O16-Si28 in natural silicon, then it is emitted as one lattice mode, and τ depends on the density of one-phonon states at ν3-ν1. If (ν3-ν1)>νm, as for O16 in single-isotope Si30 silicon, two lattice modes are created in addition to ν1, increasing τ. Prediction of τ for a particular defect clearly requires a detailed knowledge of that defect.

本文言語	English
論文番号	225503
ジャーナル	Physical review letters
巻	96
号	22
DOI	https://doi.org/10.1103/PhysRevLett.96.225503
出版ステータス	Published - 2006

ASJC Scopus subject areas

物理学および天文学（全般）

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10.1103/PhysRevLett.96.225503

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title = "Isotope dependence of the lifetime of the 1136-cm-1 vibration of oxygen in silicon",

abstract = "By simply changing the isotopes of the Si atoms that neighbor an oxygen Oi atom in crystalline silicon, the measured decay rate τ of the asymmetric-stretch vibration (ν3=1136cm-1) of oxygen (Oi) in silicon changes by a factor of ∼2.5. These data establish that ν3 decays by creating one ν1 symmetric-stretch, local-vibrational mode of the Si-Oi-Si structure. If the residual energy (ν3-ν1) is less than the maximum frequency νm of the host lattice, as for Si28-O16-Si28 in natural silicon, then it is emitted as one lattice mode, and τ depends on the density of one-phonon states at ν3-ν1. If (ν3-ν1)>νm, as for O16 in single-isotope Si30 silicon, two lattice modes are created in addition to ν1, increasing τ. Prediction of τ for a particular defect clearly requires a detailed knowledge of that defect.",

author = "Kohli, {K. K.} and Gordon Davies and Vinh, {N. Q.} and D. West and Estreicher, {S. K.} and T. Gregorkiewicz and I. Izeddin and Itoh, {K. M.}",

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AU - Kohli, K. K.

AU - Davies, Gordon

AU - Vinh, N. Q.

AU - West, D.

AU - Estreicher, S. K.

AU - Gregorkiewicz, T.

AU - Izeddin, I.

AU - Itoh, K. M.

PY - 2006

Y1 - 2006

N2 - By simply changing the isotopes of the Si atoms that neighbor an oxygen Oi atom in crystalline silicon, the measured decay rate τ of the asymmetric-stretch vibration (ν3=1136cm-1) of oxygen (Oi) in silicon changes by a factor of ∼2.5. These data establish that ν3 decays by creating one ν1 symmetric-stretch, local-vibrational mode of the Si-Oi-Si structure. If the residual energy (ν3-ν1) is less than the maximum frequency νm of the host lattice, as for Si28-O16-Si28 in natural silicon, then it is emitted as one lattice mode, and τ depends on the density of one-phonon states at ν3-ν1. If (ν3-ν1)>νm, as for O16 in single-isotope Si30 silicon, two lattice modes are created in addition to ν1, increasing τ. Prediction of τ for a particular defect clearly requires a detailed knowledge of that defect.

AB - By simply changing the isotopes of the Si atoms that neighbor an oxygen Oi atom in crystalline silicon, the measured decay rate τ of the asymmetric-stretch vibration (ν3=1136cm-1) of oxygen (Oi) in silicon changes by a factor of ∼2.5. These data establish that ν3 decays by creating one ν1 symmetric-stretch, local-vibrational mode of the Si-Oi-Si structure. If the residual energy (ν3-ν1) is less than the maximum frequency νm of the host lattice, as for Si28-O16-Si28 in natural silicon, then it is emitted as one lattice mode, and τ depends on the density of one-phonon states at ν3-ν1. If (ν3-ν1)>νm, as for O16 in single-isotope Si30 silicon, two lattice modes are created in addition to ν1, increasing τ. Prediction of τ for a particular defect clearly requires a detailed knowledge of that defect.

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Isotope dependence of the lifetime of the 1136-cm-1 vibration of oxygen in silicon

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