A new method of creating laser pulses, more than 1,000 times as powerful as those currently in existence, has been proposed by scientists in the UK and South Korea. The scientists have used computer ...

* the Vulcan PW in the UK at 1 × 10^21 W/cm2 (2004); * the Ti:sapphirebased HERCULES laser at the University of Michigan, USA at 1 × 10^22 W/cm2 (2004) * J-KAREN-P in Japan at 1 × 10^22 W/cm2 (2018) * ...

From 1992-2001, however, we have seen a surge in our ability to produce high intensities, five to six orders of magnitude higher than was possible before. At these intensities, particles, electrons ...

Osaka, Japan — Ultra-intense lasers with ultra-short pulses and ultra-high energies are powerful tools for exploring unknowns in physics, cosmology, material science, etc. With the help of the famous ...

In the recent past, producing lasers with terawatt (a trillion watts) beams was impressive. Now petawatt (a thousand trillion watts, or 10^15 watts) lasers are the forefront of laser research. Some ...

Eight Russians have landed on the 2014 list of the world’s most influential scientists, published in July by Thomson Reuters. Although the work of Russian scientists in the post-Soviet era is ...

A concept of pulse compression in a plasma. Credit: Nature Photonics (2023). DOI: 10.1038/s41566-023-01321-x A new method of creating laser pulses, more than 1,000 times as powerful as those currently ...

A new method of creating laser pulses, more than 1,000 times as powerful as those currently in existence, has been proposed by scientists in the UK and South Korea. The scientists have used computer ...