Determination of Effective Depth and Equivalent Pathlength for a Single-Fiber Fluorometric Sensor
- 1 June 1992
- journal article
- research article
- Published by SAGE Publications in Applied Spectroscopy
- Vol. 46 (6) , 912-918
- https://doi.org/10.1366/0003702924124411
Abstract
The relationship between sample depth and the corresponding fluorescence signal excited and collected with a single-fiber fluorometric optical sensor has been theoretically derived. The effective depth, zeff, is defined as the sample depth from which 90% of the total fluorescence signal originates. This parameter can be theoretically predicted as a function of the fiber radius, r0, the acceptance angle, α, and the sample absorbance. For solutions of negligible absorbance, the effective depth is zeff = 9 r0 tan−1α. The theoretical expressions have been experimentally tested with the use of 100- and 200-μm-core fibers and Rhodamine 6G solutions of different absorbances.Keywords
This publication has 7 references indexed in Scilit:
- Experimental comparison of single- and double-fiber configurations for remote fiber-optic fluorescence sensingAnalytical Chemistry, 1988
- Simulation et optimisation des capteurs à fibres optiques adjacentesApplied Optics, 1986
- Versatile, efficient Raman sampling with fiber opticsAnalytical Chemistry, 1984
- Chemical Sensors Based on Fiber OpticsAnalytical Chemistry, 1984
- Optical waveguides. Photon plumbing for the chemistry lab: fiber optics, waveguides, and evanescent waves as tools for chemical analysisAnalytical Chemistry, 1982
- Fiber ring interferometerApplied Optics, 1976
- Some experiments with spectrofluorimeters and filter fluorimetersThe Analyst, 1957