Strong field laser physics investigates the interaction between intense laser pulses and matter, a domain where non-linear phenomena such as multiphoton absorption, tunnelling ionisation, and ...

Using intense X-rays, researchers captured a buckyball as it expanded, split and shed electrons under strong laser fields. Detailed scattering measurements showed how the molecule behaves at low, ...

The understanding of complex many-body dynamics in laser-driven polyatomic molecules is crucial for any attempt to steer chemical reactions by means of intense light fields. Ultrashort and intense ...

Strong laser fields were supposed to be the cleanest way to watch electrons move, yet the latest experiments show that the vacuum itself can quietly reshape what those fields do. By flooding matter ...

With the continuous progress in experimental laser technology, significant improvements in laser energy and peak intensity have been achieved in recent years. The direct interaction between intense ...

The mechanical properties of biological fluids, such as viscosity and surface tension, are valuable indicators for the early detection of diseases, reflecting subtle physiological and pathological ...