Corellaser | New

Most lasers force you to choose between speed and accuracy. Corellaser’s proprietary Adaptive Beam Shaping technology refuses that trade-off. Imagine a beam that thinks—dynamically adjusting its focus, pulse width, and energy distribution in real time based on the material’s reflectivity and thickness. No more test cuts. No more burned edges on wood or micro-cracks in glass.

And then there’s Corellaser’s “ColdCut” AI—a thermal management algorithm so advanced that it predicts heat buildup before it happens, compensating mid-pulse to keep your heat-affected zone (HAZ) below 50 microns. For thin films, polymers, or sandwich composites, this is nothing short of magic. corellaser new

A coaxial OCT (optical coherence tomography) system measures hole depth in real time, dynamically adjusting pulse energy and focus position to stop at a specified depth ±2 µm accuracy — crucial for blind hole drilling. Most lasers force you to choose between speed and accuracy

The emergence of Corellaser New marks a significant milestone in laser-based material processing. Designed to overcome limitations of traditional laser systems—such as thermal damage, low energy efficiency, and limited depth control—Corellaser New integrates high-peak-power pulsed fiber lasers with adaptive beam shaping. This paper examines its architecture, operational principles, key performance metrics, and potential applications in aerospace, medical device manufacturing, and microelectronics. No more test cuts

We spoke with early adopters who have integrated the Corellaser new into their workflows.