Using integrating spheres as absorption cells: path-length distribution and application of Beer's law
Date published
2009-01-01T00:00:00Z
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Authors
Hodgkinson, Jane
Masiyano, Dackson
Tatam, Ralph P.
Masiyano, Dackson
Tatam, Ralph P.
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Osa Optical Society of America
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Article
ISSN
0003-6935
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Citation
Jane Hodgkinson, Dackson Masiyano, and Ralph P. Tatam. Using integrating spheres as absorption cells: path-length distribution and application of Beer's law. Applied Optics, Vol. 48, 2009, Issue 30, pp. 5748-5758
Abstract
We have modeled the path-length distribution in an integrating sphere used as a multipass optical cell for absorption measurements. The measured radiant flux as a function of analyte concentration is nonlinear as a result, deviating from that expected for a single path length. We have developed a full numerical model and introduce a new analytical relationship that describes this behavior for high reflectivity spheres. We have tested both models by measuring the optical absorption of methane at 1651nm in a 50mm diameter sphere, with good agreement with experimental data in the absorption range 0-0.01cm -1 . Our results compare well with previous work on the temporal response of integrating spheres.