Presentation + Paper
21 February 2020 3D-printed, low-cost, lightweight optomechanics for a compact, low-power solid-state amplifier system
Author Affiliations +
Abstract
The use of additive manufacturing methods in research and industry has led to the possibility of designing more compact, light and low-cost assemblies. In the field of laser development, new opportunities resulting from additive manufacturing have rarely been considered so far. We present a compact, lightweight solid-state amplifier system for low-power applications where the optomechanical components are manufactured completely additive via Fused Filament Fabrication (FFF). The amplifier system is based on a Nd:YVO4-crystal pumped with an external, fiber-coupled diode at a wavelength of 808nm and a maximum output power of 3 W. The seed source is a Nd:YVO4-crystal based solid-state laser with an emission wavelength of 1064 nm. The commercial optical components, such as lenses and crystal, are firmly imprinted via FFF in the optomechanics and thus secured against misalignment. Additionally, sensor technology for temperature measurement is implemented into the devices. The use of FFF, in which the components are printed from polymers, results in a lightweight yet stable construction. We have shown, that optical components can be imprinted without adding mechanical stress. To increase the mechanical and thermal robustness of the system different types of polymers as well as post process treatments are tested and the use of Laser Metal Deposition for this application is investigated. The thermal stability of the printed structures is evaluated to determine the maximum power level of the system without damaging the polymer-optomechanics. Furthermore, output power, optical-to-optical efficiency, beam pointing, and beam shape are measured for several on- and off-switching processes as well as long-term operation.
Conference Presentation
© (2020) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Fabian Kranert, Jana Budde, Philipp Neef, Robert Bernhard, Marius Lammers, Katharina Rettschlag, Tobias Grabe, Andreas Wienke, Jörg Neumann, Henning Wiche, Volker Wesling, Henning Ahlers, Roland Lachmayer, and Dietmar Kracht "3D-printed, low-cost, lightweight optomechanics for a compact, low-power solid-state amplifier system", Proc. SPIE 11261, Components and Packaging for Laser Systems VI, 1126105 (21 February 2020); https://doi.org/10.1117/12.2544268
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CITATIONS
Cited by 2 scholarly publications.
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KEYWORDS
Optical amplifiers

Printing

Optomechanical design

Laser systems engineering

Polymers

Additive manufacturing

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