Laser-plasma interactions have emerged as a cornerstone of advanced particle accelerator research, where ultrashort, ultraintense laser pulses interact with matter to generate extreme electric fields.

To continue reading this content, please enable JavaScript in your browser settings and refresh this page. The Ion, Houston’s new innovation hub, launched its ...

Osaka University-led research team achieves first realization of laser-generated energetic ions. Experimental setup with the large-area suspended graphene target. Click for info. Laser-driven ion ...

The Ion, the tech hub at the center of Houston’s developing innovation district, has won a $1.4 million federal grant to launch an aerospace tech accelerator in a partnership with NASA to boost ...

Protons and other subatomic particles that are subject to the strong nuclear force have a complex structure that involves even more fundamental constituents called quarks and gluons. These quarks and ...

EdgeCortix® Inc., a leading fabless semiconductor company specializing in energy-efficient AI processing at the edge, today ...

Physicists are using the Relativistic Heavy Ion Collider (RHIC) to test key accelerator strategies for a new state-of-the-art Electron-Ion Collider (EIC) that will reuse some of RHIC's crucial ...

Equipment in the low-energy acceleration section of RAON, the Korean superconducting heavy-ion accelerator. Courtesy of the Ministry of Science and ICT The Ministry of Science and ICT (MSIT) announced ...