Please provide your email address to receive an email when new articles are posted on . High-intensity laser therapy may reduce pain and improve function for patients with patellofemoral pain syndrome ...

System at Hungary-based laser centre delivers 15 TW peak power at 1 kHz repetition with 8 fs pulse duration. SYLOS 3, a high-intensity laser system with “groundbreaking parameters” according to its ...

The National Science Foundation (NSF) has awarded the University of Rochester nearly $18 million over three years to design and prototype key technologies for EP-OPAL, a new facility dedicated to the ...

The continuous development of bright, stable and highly coherent high-energy light sources is a propellant to the fields of material science, biomedical imaging, ultrafast spectroscopy, and industrial ...

Muons are elementary particles that resemble electrons, but they are heavier and decay very rapidly (i.e., in just a few microseconds). Studying muons can help to test and refine the standard of ...

A school gym-sized facility tucked away at the University of Michigan is quietly pushing the boundaries of what lasers can do. Known as ZEUS—short for Zettawatt Equivalent Ultrashort laser pulse ...

The University of Rochester’s Laboratory for Laser Energetics has secured $5 million to advance short-pulsed laser research tied to national defense.

To address these challenges, Nuvoton Technology has introduced a compact violet laser diode delivering 1.7 W optical output ...

For the experiment, a high-power green laser was directed through ruby cube and illuminated with a blue laser from the side. The green laser increases the optical absorption of the blue illuminating ...

System at Hungary-based laser centre delivers 15 TW peak power at 1 kHz repetition with 8 fs pulse duration. SYLOS 3: high-intensity laser system with “groundbreaking parameters”. SYLOS 3, a ...