Characterization of Absorption Losses and Transient Thermo-Optic Effects in a High-Power Laser System
Autor: | Miroslaw Dabrowski, Krzysztof Firmanty, Przemyslaw Gontar, Jan K. Jabczynski, T. Orżanowski, M. Miczuga, Jarosław Bareła, Jozef Firak, Marek Stefaniak, Lukasz Gorajek, Krzysztof Kopczynski, Tomasz Sosnowski, P. Trzaskawka |
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Rok vydání: | 2020 |
Předmět: |
lcsh:Applied optics. Photonics
Materials science optical technology laser optics Multiphysics thermal optics law.invention Optics Optical path law thermal imaging Radiology Nuclear Medicine and imaging absorption losses Absorption (electromagnetic radiation) Instrumentation laser weapon Beam diameter business.industry lcsh:TA1501-1820 Laser science Laser Atomic and Molecular Physics and Optics Laser beam quality Transient (oscillation) business high-power lasers |
Zdroj: | Photonics, Vol 7, Iss 94, p 94 (2020) Photonics Volume 7 Issue 4 |
ISSN: | 2304-6732 |
Popis: | (1) Background: The modeling, characterization, and mitigation of transient lasers, thermal stress, and thermo-optic effects (TOEs) occurring inside high energy lasers have become hot research topics in laser physics over the past few decades. The physical sources of TOEs are the un-avoidable residual absorption and scattering in the volume and on the surface of passive and active laser elements. Therefore, it is necessary to characterize and mitigate these effects in real laser systems under high-power operations. (2) Methods: The laboratory setup comprised a 10-kW continuous wave laser source with a changeable beam diameter, and dynamic registration of the transient temperature profiles was applied using an infrared camera. Modeling using COMSOL Multiphysics enabled matching of the surface and volume absorption coefficients to the experimental data of the temperature profiles. The beam quality was estimated from the known optical path differences (OPDs) occurring within the examined sample. (3) Results: The absorption loss coefficients of dielectric coatings were determined for the evaluation of several coating technologies. Additionally, OPDs for typical transmissive and reflective elements were determined. (4) Conclusions: The idea of dynamic self-compensation of transient TOEs using a tailored design of the considered transmissive and reflecting elements is proposed. |
Databáze: | OpenAIRE |
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