Laser cladding is a laser-based surface engineering technique for depositing material coatings by melting feedstock powder on a substrate, achieving tailored surface properties and minimal dilution.

A new AI accelerates laser simulations for X-ray experiments by a factor of 250 and is revolutionizing modern physics.

Femtosecond laser ablation (FLA) plays an important role in the precision fabrication of materials with its evasive thermal effects and extremely precision. Recently, Prof. Shian Zhang and Prof. Yang ...

Dr. Yannik Zobus, a laser physicist at GSI/FAIR in Darmstadt, is head of the LASE-FUSE (LAser Simulation for Enhanced FUSion Efficiency) Young Investigators Group since May 1, 2026. As part of the ...

Simulating the nonlinear optical physics that underlies ultrafast laser systems is computationally demanding—a practical bottleneck in settings that require rapid feedback. A study by researchers at ...

Researchers in the US and Germany have joined their forces to design advanced high-energy fusion lasers capable of operating continuously without interruption in future power plants. Scientists from ...

Two world-leading research institutions are joining forces and their laser design and simulation expertise - to successfully transition laser-ignited inertial fusion from the experimental stage to ...

Artistic rendering of noncollinear sum-frequency generation (SFG): two infrared pulses mix in a χ² crystal to produce three output pulses (green), with the central SFG pulse being the primary output ...

Scientists have finally figured out how mysterious “breather” laser pulses work, solving a puzzle that has frustrated laser ...