Quantitative analysis of the self-absorption and reemission effects on the emission spectrum of photoluminescence in right-angle excitation-detection configuration

A theoretical approach based on differential radiative transport is proposed to quantitatively analyze the self- absorption and reemission effects on the emission spectrum for right angle excitation-detection photoluminescence mea- surements, and the wavelength dependence of the reemission effect is...

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Bibliographic Details
Published in:Chinese physics B 2013-11, Vol.22 (11), p.268-274
Main Author: 王振华 吴玉娥 张心正 云志强 李威 许京军
Format: Article
Language:English
Subjects:
Emission analysis
Excitation spectra
Gain
Mathematical models
Photoluminescence
Quantitative analysis
Rhodamine 6G
Wavelengths
光致发光
发射光谱
定量分析
检测结构
激励
直角
自吸收
辐射传输理论
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Summary:A theoretical approach based on differential radiative transport is proposed to quantitatively analyze the self- absorption and reemission effects on the emission spectrum for right angle excitation-detection photoluminescence mea- surements, and the wavelength dependence of the reemission effect is taken into account. Simulations and experiments are performed using rhodamine 6G solutions in ethanol as model samples. It is shown that the self-absorption effect is the dominant effect on the detected spectrum by inducing pseudo red-shift and reducing total intensity; whereas the reemission effect partly compensates for signal decrease and also results in an apparent signal gain at the wavelengths without ab- sorption. Both effects decrease with the decrease in the sample concentration and the propagation distance of the emission light inside the sample. We therefore suggest that diluted solutions are required for accurate photoluminescence spectrum measurements and photoluminescence-based measurements.
ISSN:1674-1056
2058-3834
1741-4199
DOI:10.1088/1674-1056/22/11/113301