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Company News :
- Plasma wakefield acceleration - SLAC National Accelerator Laboratory
Researchers will use FACET-II to develop the plasma wakefield acceleration method, in which researchers send a bunch of very energetic particles through a hot ionized gas, or plasma, creating a plasma wake for a trailing bunch to “surf” on and gain energy (Greg Stewart SLAC National Accelerator Laboratory) Image details
- Innovative target design leads to surprising discovery in laser-plasma . . .
The promise of laser-plasma acceleration Enter laser-plasma accelerators (LPAs) LPAs use high-intensity lasers to strike a target, generating charged particle beams that reach comparable speeds to those produced using traditional accelerators – but in a fraction of the distance
- Shrinking particle accelerators with cold plasma and a large picnic basket
In plasma wakefield acceleration, researchers send beams of particles through plasma – an extremely hot ionized gas that is often made of helium or hydrogen ions, like the sun “When the beam goes through the plasma, a wake is created – similar to the wake that is created behind a boat that is speeding through water on a lake,” Gessner
- Researchers Hit Milestone in Accelerating Particles with Plasma
The UCLA and SLAC groups have been at the forefront of research on plasma wakefield acceleration for more than a decade In a 2007 paper, researchers announced they'd accelerated electrons in the tail end of a long electron bunch from 42 billion electronvolts to 85 billion electronvolts, causing a great deal of excitement in the scientific
- How it Works: Plasma Wakefield Acceleration with Positrons
interacts with the plasma in a way that the bunch head creates a wake field that is accelerating and focusing for the bunch tail plasma wake field acceleration for electrons and positrons could be used one day to build Collider structures that are a hundred to a thousand times shorter than current designs even before then they could
- Topic: Lasers - SLAC National Accelerator Laboratory
Scientists studying laser-plasma proton acceleration made an unexpected breakthrough, simultaneously resolving multiple long-standing problems although they had only aimed to address one February 10, 2025 · 4 min read
- Advanced accelerator R and D - SLAC National Accelerator Laboratory
New technologies, such as "plasma wakefield" accelerators, can boost electrons to very high energies in very short distances This could lead to linear accelerators that are 100 times more powerful, boosting electrons to a given energy in one hundredth the distance Related link:Advanced accelerators
- Advanced accelerators | SLAC National Accelerator Laboratory
Plasma wakefield acceleration Charged particles “surf” waves of plasma – a promising technology that could make future particle colliders more compact and affordable SLAC researchers are developing plasma wakefield acceleration, in which energetic particles “surf” a plasma wake
- Atomic ‘Trojan horse’ could inspire new generation of X-ray lasers and . . .
The new paper expands the plasma concept to the electron source of an accelerator “We’ve previously shown that plasma acceleration can be extremely powerful and efficient, but we haven’t been able yet to produce beams with high enough quality for future applications,” says co-author Mark Hogan from SLAC
- Exploring the ultrasmall and ultrafast through advances in attosecond . . .
Two of our extraordinary researchers, Agostino Marinelli and Gennady Stupakov, won the prestigious 2024 Particle Accelerator Science and Technology Award Each year, the IEEE Nuclear Plasma Sciences Society provides the award to individuals who have made outstanding contributions to the development of particle accelerator science and technology
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