CAMAS, Wash.--(BUSINESS WIRE)-- nLIGHT, Inc. (Nasdaq: LASR), a leading provider of high-power semiconductor and fiber lasers used in the industrial, microfabrication, aerospace, and defense markets, ...
A laser phenomenon from MIT transforms chaotic light into a focused beam, enabling faster, high-resolution brain-interface ...
In EU project ALBATROSS, Fraunhofer IWS has developed battery housing for E-vehicles. Laser processes with dynamic beam shaping create stable joints even in challenging material combinations. Recent ...
Bonn, Germany-based laser start-up Midel Photonics has announced that it has gained € 1 million seed funding, with investors including High-Tech Gründerfonds (HTGF) and renowned industry experts ...
MIT researchers discovered a paradoxical phenomenon in optical physics that could enable a new bioimaging method that's ...
MIT researchers have discovered a way for chaotic laser light to self-organize into a stable 'pencil beam,' enabling 3D imaging of the human blood-brain barrier 25 times faster than current methods.
At high power, laser light inside a multimode optical fiber is supposed to misbehave. The beam usually breaks into a noisy, ...
MIT researchers found that chaotic laser light can transform into a precise, stable beam. This breakthrough enables much ...
Scientists at MIT discovered that chaotic laser light can spontaneously form a highly focused beam instead of scattering—if ...
Discover how a self-organizing “pencil beam” laser could allow for faster and more precise biomedical imaging.
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