NON-LINEAR RECEIVER REACTION OF IRRADIATION WITH COMPLEX SPECTRAL COMPOSITION
NON-LINEAR RECEIVER REACTION OF IRRADIATION WITH COMPLEX SPECTRAL COMPOSITION
DOI:
https://doi.org/10.46687/jsar.v19i1.287Keywords:
turbulence, optical measurementAbstract
One of the basic problems in elaboration of spectro-photometer for atmospheric ozone exploration at the Space Research Institute - Bulgarian Academy of Sciences seems to be the necessity of calculation of output signal of the irradiating receiver by fixed spectral composition and intensity. The calculation wouldn’t be difficult if the intensity values range is situated on the linear part of the irradiating receiver energetic characteristic. To the end, the absolutely spectral characteristic of receiver sensibility and spectral density of the treated receiver intensity has to be known. The paper is dedicated to the elaboration and the obtained results by offering and creating a method for definition the non-linear irradiating receiver output signal by fixed spectral composition and intensity. In the paper the obtained schemes and equations in the process of elaboration are presented characterizing the reaction of the photo-receiver complex spectral composition with nonlinear energetic characteristic.
References
Getsov P., St. Stoyanov, Research of the Background Influence on the Resolution and Definition of the Variations of the Background Luminance of Electronic-Optic Converters. Determination of the Angular Coordinates of Astronomical Objects. Journal Scientific and Applied Research. Vol. 9, 2016, p. 5-11.
Getsov P., St. Stoyanov, Input Influences on an Optical-Electronic Device When Measuring Angular Coordinates of Distant Objects, Journal Scientific and Applied Research. Vol. 17, 2019, p. 5-8.
Stoyanov St., A. Antonov. Discovery of Distant Objects by Means of Optic-Electronic Devices, Likelihood Ratio When the Signal is Absolutely Unknown. Journal Scientific and Applied Research. Vol. 17, p. 13-18.
Getsov P., St. Stoyanov, P. Boyanov, Research of the Transparency Characteristics of the Atmosphere Which Influence the Flight Control of Flying Machines, Journal Scientific and Applied Research. Vol. 11, 2017, p. 5-9.
Getsov P., St. Stoyanov, Determining the Amount of Electronic Scintillations of Electro-Optic Transformer of Images, Journal Scientific and Applied Research. Vol. 14, 2018, p. 11-16.
Getsov P., St Stoyanov, A. Antonov, P. Boyanov. Visual Detection of Distant Objects Using Electronic Optical Devices at Irregular Background Luminance. Journal Scientific and Applied Research. Vol. 10, 2016, p. 5-10.
Stoyanov St. Applied Optics. Publishing House Faber. 2009, 234 p.
Stoyanov St. Design of Optical Devices. Publishing House Faber. 2010, 348 p.
Zhekov Zh. Methods and Means for Discovery of Distant Objects from Space Aircraft, Konstantin Preslavski University Press. Shumen, 2006, 308 p.
Zhekov Zh. Satellite Ecological Monitoring of the Environment, Konstantin Preslavski University Press. Shumen, 2014, 293 p.
Zhekov Zh. Satellite Monitoring of the Atmosphere, Konstantin Preslavski University Press. Shumen, 2014, 165 p.
Novitzki P. V. Information Theory of the Measuring Devices Base, L., Energia, 1988.
Kogelnik H. R., Bell. Syst. Techn. J., vol. 38, 1995, pp. 322–349.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2023 JOURNAL SCIENTIFIC AND APPLIED RESEARCH
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.