Spectral Function of Composites from Reflectivity Measurements

A. R. Day; A. R. Grant; A. J. Sievers; M. F. Thorpe

doi:10.1103/PhysRevLett.84.1978

Spectral Function of Composites from Reflectivity Measurements

A. R. Day, A. R. Grant, A. J. Sievers, M. F. Thorpe

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24 Scopus citations

Abstract

We demonstrate a method of calculating the spectral function of a composite from measured reflectivity data. To solve this inverse problem it is necessary for the reflectivity data to be taken through a strong, high Q, resonance. By analyzing the reststrahlen region of different fill fraction KCl-diamond composites at three different temperatures, we find accurate spectral functions that are independent of temperature with the low temperature data giving the best resolution. These spectral functions are then used to successfully predict the optical response of RbCl-diamond composites.

Original language	English (US)
Pages (from-to)	1978-1981
Number of pages	4
Journal	Physical Review Letters
Volume	84
Issue number	9
DOIs	https://doi.org/10.1103/PhysRevLett.84.1978
State	Published - Feb 28 2000
Externally published	Yes

ASJC Scopus subject areas

General Physics and Astronomy

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10.1103/PhysRevLett.84.1978

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abstract = "We demonstrate a method of calculating the spectral function of a composite from measured reflectivity data. To solve this inverse problem it is necessary for the reflectivity data to be taken through a strong, high Q, resonance. By analyzing the reststrahlen region of different fill fraction KCl-diamond composites at three different temperatures, we find accurate spectral functions that are independent of temperature with the low temperature data giving the best resolution. These spectral functions are then used to successfully predict the optical response of RbCl-diamond composites.",

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AU - Grant, A. R.

AU - Sievers, A. J.

AU - Thorpe, M. F.

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N2 - We demonstrate a method of calculating the spectral function of a composite from measured reflectivity data. To solve this inverse problem it is necessary for the reflectivity data to be taken through a strong, high Q, resonance. By analyzing the reststrahlen region of different fill fraction KCl-diamond composites at three different temperatures, we find accurate spectral functions that are independent of temperature with the low temperature data giving the best resolution. These spectral functions are then used to successfully predict the optical response of RbCl-diamond composites.

AB - We demonstrate a method of calculating the spectral function of a composite from measured reflectivity data. To solve this inverse problem it is necessary for the reflectivity data to be taken through a strong, high Q, resonance. By analyzing the reststrahlen region of different fill fraction KCl-diamond composites at three different temperatures, we find accurate spectral functions that are independent of temperature with the low temperature data giving the best resolution. These spectral functions are then used to successfully predict the optical response of RbCl-diamond composites.

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JO - Physical Review Letters

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Spectral Function of Composites from Reflectivity Measurements

Abstract

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