The two-photon absorption spectrum of ruby and its role in distributed optical fibre sensing

The two-photon absorption spectrum and cross-section ( δ ) for ruby (Cr 3+ :sapphire) have been measured over the 0.8–1.2 μm wavelength range at 25°C. Absolute values of δ were obtained by comparing the fluorescence yield for two-photon excitation with that for single-photon excitation of the same i...

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Published in	Applied physics. B, Lasers and optics Vol. 103; no. 1; pp. 113 - 116
Main Authors	Dalzell, C. J., Han, T. P. J., Ruddock, I. S.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer-Verlag 01.04.2011
Subjects	Absorption spectra Detection Engineering Excitation Illumination Lasers Optical Devices Optical fibers Optics Photonics Physical Chemistry Physics Physics and Astronomy Quantum Optics Ruby Wavelengths Extraordinary Polarisation State Population Density Optical Parametric Oscillator Ruby Short Wavelength Peak
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Abstract	The two-photon absorption spectrum and cross-section ( δ ) for ruby (Cr 3+ :sapphire) have been measured over the 0.8–1.2 μm wavelength range at 25°C. Absolute values of δ were obtained by comparing the fluorescence yield for two-photon excitation with that for single-photon excitation of the same ionic transition under identical illumination conditions. The maximum values of δ are 4.6×10 −3 GM for o-polarisation and 5.9×10 −3 GM for e-polarisation at 840 nm. The relevance of these measurements to distributed optical fibre sensing is briefly discussed.
AbstractList	The two-photon absorption spectrum and cross-section ( Delta d) for ruby (Cr3+:sapphire) have been measured over the 0.8--1.2 Delta mm wavelength range at 25?C. Absolute values of Delta d were obtained by comparing the fluorescence yield for two-photon excitation with that for single-photon excitation of the same ionic transition under identical illumination conditions. The maximum values of Delta d are 4.6X10-3 GM for o-polarisation and 5.9X10-3 GM for e-polarisation at 840 nm. The relevance of these measurements to distributed optical fibre sensing is briefly discussed. The two-photon absorption spectrum and cross-section ( δ ) for ruby (Cr 3+ :sapphire) have been measured over the 0.8–1.2 μm wavelength range at 25°C. Absolute values of δ were obtained by comparing the fluorescence yield for two-photon excitation with that for single-photon excitation of the same ionic transition under identical illumination conditions. The maximum values of δ are 4.6×10 −3 GM for o-polarisation and 5.9×10 −3 GM for e-polarisation at 840 nm. The relevance of these measurements to distributed optical fibre sensing is briefly discussed.
Author	Ruddock, I. S. Han, T. P. J. Dalzell, C. J.
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Snippet	The two-photon absorption spectrum and cross-section ( δ ) for ruby (Cr 3+ :sapphire) have been measured over the 0.8–1.2 μm wavelength range at 25°C. Absolute... The two-photon absorption spectrum and cross-section ( Delta d) for ruby (Cr3+:sapphire) have been measured over the 0.8--1.2 Delta mm wavelength range at...
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SubjectTerms	Absorption spectra Detection Engineering Excitation Illumination Lasers Optical Devices Optical fibers Optics Photonics Physical Chemistry Physics Physics and Astronomy Quantum Optics Ruby Wavelengths
Title	The two-photon absorption spectrum of ruby and its role in distributed optical fibre sensing
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