High-powered lasers generate a significant amount of heat that must be removed from the laser system to avoid overheating critical components. Laser cooling can help accomplish three goals: maintaining a precise laser wavelength and higher output efficiency, achieving desired beam quality, and reducing thermal stress on a laser system. Recirculating chillers, liquid-to-liquid cooling systems, ambient cooling systems, cold plates, and heat exchangers are a few of the cooling technologies used in laser systems' liquid cooling loops.
Lytron provides laser cooling solutions for EDM, induction heating and ovens, metallurgy, diode pumped lasers, CO2 - cutting lasers, spindles and many other high-end applications.
The customer required a high performance ambient cooling system which had to fit on top of a digital laser cinema projector. For this application Lytron designed an ambient cooling system with a custom high performance inner fin cold plate as well as an air to liquid heat exchanger assembly.
The performance of high-powered lasers depends on effective cooling. High-powered lasers generate a significant amount of heat that must be removed from the laser system to avoid overheating critical components. Carbon dioxide (CO2) lasers, excimer lasers, ion lasers, solid-state lasers, and dye lasers all use liquid cooling to remove excess heat... Read more
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55 Dragon Court,
Lytron specializes in custom liquid cooling solutions. We design and manufacture cold plates, chassis, chillers, cooling systems, and heat exchangers for some of the most demanding thermal management applications. Learn More.