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Computer Research and Modeling, 2021, Volume 13, Issue 5, Pages 1025–1044
DOI: https://doi.org/10.20537/2076-7633-2021-13-5-1025-1044
(Mi crm932)
 

MODELS IN PHYSICS AND TECHNOLOGY

On the permissible intensity of laser radiation in the optical system and on the technology for measuring the absorption coefficient of its power

A. S. Demidova, I. V. Demidovab

a Lomonosov Moscow State University, 1 Kolmogorov st., Moscow, 119234, Russia
b Scientific and Production Corporation «Precision Instrumentation Systems», 53 Aviamotornaya st., Moscow, 111024, Russia
References:
Abstract: Laser damage to transparent solids is a major limiting factor output power of laser systems.
For laser rangefinders, the most likely destruction cause of elements of the optical system (lenses, mirrors) actually, as a rule, somewhat dusty, is not an optical breakdown as a result of avalanche, but such a thermal effect on the dust speck deposited on an element of the optical system (EOS), which leads to its ignition. It is the ignition of a speck of dust that initiates the process of EOS damage.
The corresponding model of this process leading to the ignition of a speck of dust takes into account the nonlinear Stefan–Boltzmann law of thermal radiation and the infinite thermal effect of periodic radiation on the EOS and the speck of dust. This model is described by a nonlinear system of differential equations for two functions: the EOS temperature and the dust particle temperature. It is proved that due to the accumulating effect of periodic thermal action, the process of reaching the dust speck ignition temperature occurs almost at any a priori possible changes in this process of the thermophysical parameters of the EOS and the dust speck, as well as the heat exchange coefficients between them and the surrounding air. Averaging these parameters over the variables related to both the volume and the surfaces of the dust speck and the EOS is correct under the natural constraints specified in the paper. The entire really significant spectrum of thermophysical parameters is covered thanks to the use of dimensionless units in the problem (including numerical results).
A thorough mathematical study of the corresponding nonlinear system of differential equations made it possible for the first time for the general case of thermophysical parameters and characteristics of the thermal effect of periodic laser radiation to find a formula for the value of the permissible radiation intensity that does not lead to the destruction of the EOSas a result of the ignition of a speck of dust deposited on the EOS. The theoretical value of the permissible intensity found in the general case in the special case of the data from the Grasse laser ranging station (south of France) almost matches that experimentally observed in the observatory.
In parallel with the solution of the main problem, we derive a formula for the power absorption coefficient of laser radiation by an EOS expressed in terms of four dimensionless parameters: the relative intensity of laser radiation, the relative illumination of the EOS, the relative heat transfer coefficient from the EOS to the surrounding air, and the relative steady-state temperature of the EOS.
Keywords: optical system element, thermal breakdown, laser intensity radiation, power absorption coefficient of laser radiation.
Funding agency Grant number
Russian Foundation for Basic Research 20-01-00469
This work was supported RFBR (grant 20-01-00469).
Received: 26.03.2021
Revised: 06.07.2021
Accepted: 12.07.2021
Document Type: Article
UDC: 519.8
Language: Russian
Citation: A. S. Demidov, I. V. Demidova, “On the permissible intensity of laser radiation in the optical system and on the technology for measuring the absorption coefficient of its power”, Computer Research and Modeling, 13:5 (2021), 1025–1044
Citation in format AMSBIB
\Bibitem{DemDem21}
\by A.~S.~Demidov, I.~V.~Demidova
\paper On the permissible intensity of laser radiation in the optical system and on the technology for measuring the absorption coefficient of its power
\jour Computer Research and Modeling
\yr 2021
\vol 13
\issue 5
\pages 1025--1044
\mathnet{http://mi.mathnet.ru/crm932}
\crossref{https://doi.org/10.20537/2076-7633-2021-13-5-1025-1044}
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