The CompSTLar project is using laser-induced graphene (LIG) to create smart skins, combining data with simulations to enable virtual stress tests for in situ monitoring and prediction.
Morning Overview on MSN
Japan tests containerized 100 kW ship laser in real ocean combat conditions
Japan has quietly crossed a threshold in naval warfare, moving a 100 kilowatt class laser from the lab into real ocean ...
TUCSON, AZ, UNITED STATES, January 13, 2026 /EINPresswire.com/ — Applied Energetics, Inc. (“AE”) (OTCQB:AERG), a leader in ultrashort pulse laser (USPL) and directed-energy technologies, today ...
The plan lists estimated funding levels for purchases and projects over the next five years: $10.8 million for FY 2027, $14.19 million for FY 2028, $11.2 million for FY 2029, $10.7 million for FY 2030 ...
We highlight our five favorite video-game-related watches ✓ The worlds of gaming and horology make a good match ✓ Here's why! ✓ ...
Live Science on MSN
'Earthquake on a chip' uses 'phonon' lasers to make mobile devices more efficient
A new technology that generates tiny, earthquake-like effects could shake up the wireless device industry with smaller, less ...
CHENGDU, SICHUAN, CHINA, January 14, 2026 /EINPresswire.com/ -- When global manufacturers and logistics operators ...
New director-general Mark Thomson discusses fundraising efforts and future priorities for Europe’s particle-physics ...
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