For particle physicists, getting "more bang for the buck," means colliding particles at higher energies for lower cost. In a recent breakthrough, researchers at Argonne National Laboratory have ...

Twenty-five feet below ground, SLAC National Accelerator Laboratory scientist Spencer Gessner opens a large metal picnic basket. This is not your typical picnic basket filled with cheese, bread and ...

Add Futurism (opens in a new tab) Adding us as a Preferred Source in Google by using this link indicates that you would like to see more of our content in Google News results. SLAC researchers Spencer ...

Three new studies show the promise and challenge of using plasma wakefield acceleration to build a future electron-positron collider. Matter is known to exist in four different states: solid, liquid, ...

How it works: electrons accelerated by a laser pulse (left) are used to drive the second-stage particle accelerator (right). (Courtesy: Thomas Heinemann/Strathclyde and Alberto Martinez de la ...

Scientists around the world are testing ways to further boost the power of particle accelerators while drastically shrinking their size. At least when it comes to particle accelerators, bigger is ...

A simple metamaterial made from alternating steel and copper plates has been used to improve the tunability and beam quality of wakefield particle accelerators. The work was done in the US by ...

The Wakefield Acceleration and Radiation Generation (WARG) research group is led by Prof. Mike Litos of the CU Physics Department and the Center for Integrated Plasma Studies (CIPS). Our primary area ...