Tag Archives: Thermal Lensing

Thermal Lensing Compensation Objective for High Power Lasers

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By: Michael Scaggs

Athermalization of focusing objectives is a common technique for optimizing imaging systems in the infrared where thermal effects are a major concern.  The athermalization is generally done within the spectrum of interest and not generally applied to a single wavelength.  By applying athermalization techniques to a laser system, a significant reduction in thermal lensing of the laser system can be realized.  We describe a passive method minimizing thermal lensing of high power lasers.

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Comparison of 1 Micron Transmissive Optical Materials for High Power Lasers

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By: Steve Rummel, Gary Herrit, Alan Hedges

II-VI Infrared

One of the problems that high power fiber, direct-diode, and disk laser users experience is thermal lensing of their beam delivery optics and debris windows. This is placing increased demands on the optics used in 1 micron laser beam delivery systems. Direct-diode lasers, meanwhile, continue to show improved beam quality and may eventually be used for industrial metal cutting applications, placing increased demands on the optics used in these lasers.

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Fiber Laser Blanking of Coil Strips at Extreme-Speed Extreme-Power

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By: Dr. Charles Caristan and Jay Finn

Air Liquide Industrial US LP, Automatic Feed Company

The blanking process consisting of cutting flat panels directly out of a metal coil is practiced in the automotive industry to the tune of 10 MM tons of steel coils processed each year for the North American market alone.  Up until now, CO2 laser-cutting technology is almost exclusively used to produce low-volume prototype blanks, whereas when it comes to high volume production, nearly 100% is still manufactured exclusively mechanically with shears and press die-blanking systems which hold high throughput and piece cost advantages.

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