IMRA AMERICA, Inc. and Osaka University successfully showcased a wireless link operating in the 300 GHz-band, achieving an impressive data transmission rate of 240 gigabits per second across a singular…
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IMRA America Inc, in conjuction with Aisin Corporation and ART Metal Mfg, win the 13th Annual Laser Society of Japan Award for “technology to reduce friction of automobile engine pistons…
Record output from telecom lasers reveals new pulse shape, as published in Optica To read the full article, click here IMRA researchers have discovered a new pulse shape that helped…
State-of-the-art Millimeter-wave generation on-chip Abstract Attosecond-level timing noise is measured for the first time at 300 GHz for Fourier frequency > 1 kHz. A 300 GHz signal is generated by…
Thin film removal is an extremely precise process that exploits selective laser ablation to remove micro- and nanoscale layers from the surfaces of different substrate materials. Though ‘thin’ is a…
Glass is one of the oldest, luxury commodities ever manufactured. Mankind has been creating decorative glass articles for millennia, at first using rudimentary molds before the characteristic blowing method was…
IMRA is a pioneer in applying femtosecond lasers to a variety of commercial applications. Supported by years of cumulative expertise in materials processing, IMRA has made significant contributions to laser-based…
IMRA is committed to pioneering research and development (R&D) of critical ultrafast laser-based technologies for users in a range of industrial sectors. We have developed a suite of industrial lasers…
Femtosecond laser micromachining is an advanced technique used to fabricate two- and three-dimensional (2D/3D) structures on the sub-micrometer scale. It’s one of the most advanced methods of laser processing currently…
Laser material processing refers to a growing school of techniques that use high-energy laser light to modify the surface of materials. It is one of the most common, and highest…
