Of these processes cutting demands the most power – usually a beam of more than 1 kW. “Laser diodes, and solid, or fibre, lasers are the main technologies used in manufacturing today ...

Laser processing equipment that provides five-axis machining are also available. In a laser beam delivery subsystem, the final component is a reflective or focusing laser head, a laser galvanometer ...

A high brightness laser beam requires both high emission power ... of many such devices to attain the power required for laser cutting and drilling of more than 1 mm-thick copper – roughly ...

[Ben Krasnow] over at Applied Science was experimenting with cutting inexpensive ... cheap CO2 laser cutter when he found that (just as expected) the thermal shock of the CO2 beam would cause ...

[Nervous System] does a lot of laser cutting, and [Jesse] shared a fascinating ... [Jesse]’s modification doesn’t affect the laser beam itself; it is an improvement on the air assist, which ...

Researchers from ETH Zurich have developed a laser that produces the strongest ultra-short pulses to date, setting a new ...

The early slow axial flow machines were 500 to 1,000 W, and since these machines produced about 50 W per meter of glass tube, ...

atumLASER develops and produces diode pumped solid-state laser for industrial and scientific applications. Our laser beam sources are used in different applications and industries: machining, ...

who is responsible for high-power optics in defence and macro-machining applications. Dr. Kidd, added, “Our high-power, Coherent Beam Combiner optics module enables market-leading levels of ...

nLIGHT, Inc. (Nasdaq: LASR), a leading provider of high-power semiconductor and fiber lasers used in the industrial, microfabrication, aerospace, and defense markets, today announces the global launch ...

While not as much of a watershed moment as when Israel can finally deploy its Iron Beam laser defense system, the Lite Beam ...