Please use this identifier to cite or link to this item: http://ir.futminna.edu.ng:8080/jspui/handle/123456789/7430
Title: Comparative Study of the Effect of Sensing Parameters on Ozone Gas Comparative Study of the Effect of Sensing Parameters on Ozone Gas Absorption-Cross-Section
Authors: Patrick, Enenche
David, Michael
Alenoghena, C. O.
Salihu, Bala A.
Joshua, Abolarinwa
Keywords: absorption cross section
absorption spectroscop
optical path length
ozone
temperature
wavelength
Issue Date: Oct-2017
Citation: E. Patrick, M. David, C. O. Alenoghena, S. A. Bala, and A. Joshua, “Comparative Study of the Effect of Sensing Parameters on Ozone Gas Comparative Study of the Effect of Sensing Parameters on Ozone Gas Absorption-Cross-Section,” no. October, 2017.
Abstract: Obviously in this 21st century, photonics is causing a major revolution. As a result in this work, we zeroed in on one of the applications of photonics, which is sensor based. In this paper, the simultaneous effect of the variation of optical path length and temperature on the absorption cross section of ozone at 334.15nm referenced wavelengths in the UV is proposed. To actualise accuracy in measurements, optical absorption spectroscopy has been adopted via an online real time Spectralcalc.com simulation software. The simulated Absorption cross- section (ACS) results show a 1.67% increase with decreasing temperature from 350K – 100K. However, increase in the optical path-length from 0.75cm – 130cm has no effect on the ozone ACS. Results obtained are relevant to Green Communications
URI: http://repository.futminna.edu.ng:8080/jspui/handle/123456789/7430
Appears in Collections:Telecommunication Engineering



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