Add to ORKGThe plasma wake-field mechanism can be used to couple energy at a high rate from a bunched electron beam into a plasma wave. We will present results from the Fermilab A0 facility where a beam with an initial energy of 14 MeV passes through the plasma to emerge with a much broader energy spread, spanning from a low of 3 MeV to a high of over 20 MeV. Over the 8 cm length of the 10{sup 14} cm{sup -3} plasma, this implies a 140 MeV/m deceleration and 72 MeV/m acceleration gradient
The energy loss and gain of a beam in the nonlinear, “blowout ” regime of the plasma wakefield accel...
There has been much recent experimental and theoretical interest in the blowout regime of plasma wak...
Plasmas are an attractive medium for the next generation of particle accelerators because they can s...
There has been much interest in the regime of plasma wake-field acceleration (PWFA) having ultra-hig...
The transfer of energy from the driving beam to the trailing beam in the plasma wake field accelerat...
Next-generation plasma-based accelerators can push elec-tron bunches to gigaelectronvolt en...
High-energy particle accelerators have been crucial in providing a deeper understanding of fundament...
The field of particle acceleration in plasma wakes has seen remarkable progress in recent years.Thes...
Electron accelerators with higher and higher longitudinal field gradients are desirable, as they all...
High-energy particle accelerators have been crucial in providing a deeper understanding of fundament...
Energy-transfer efficiency is an important quantity in plasma-wakefield acceleration, especially for...
The Advanced Wakefield Experiment (AWAKE) at CERN is the first plasma wakefield experiment to exploi...
Recent experiments at SLAC have shown that high gradient acceleration of electrons is achievable in ...
International audienceHigh gradients of energy gain and high energy efficiency are necessary paramet...
UnrestrictedParticle accelerators are the tools that physicists use today in order to probe the fund...
The energy loss and gain of a beam in the nonlinear, “blowout ” regime of the plasma wakefield accel...
There has been much recent experimental and theoretical interest in the blowout regime of plasma wak...
Plasmas are an attractive medium for the next generation of particle accelerators because they can s...
There has been much interest in the regime of plasma wake-field acceleration (PWFA) having ultra-hig...
The transfer of energy from the driving beam to the trailing beam in the plasma wake field accelerat...
Next-generation plasma-based accelerators can push elec-tron bunches to gigaelectronvolt en...
High-energy particle accelerators have been crucial in providing a deeper understanding of fundament...
The field of particle acceleration in plasma wakes has seen remarkable progress in recent years.Thes...
Electron accelerators with higher and higher longitudinal field gradients are desirable, as they all...
High-energy particle accelerators have been crucial in providing a deeper understanding of fundament...
Energy-transfer efficiency is an important quantity in plasma-wakefield acceleration, especially for...
The Advanced Wakefield Experiment (AWAKE) at CERN is the first plasma wakefield experiment to exploi...
Recent experiments at SLAC have shown that high gradient acceleration of electrons is achievable in ...
International audienceHigh gradients of energy gain and high energy efficiency are necessary paramet...
UnrestrictedParticle accelerators are the tools that physicists use today in order to probe the fund...
The energy loss and gain of a beam in the nonlinear, “blowout ” regime of the plasma wakefield accel...
There has been much recent experimental and theoretical interest in the blowout regime of plasma wak...
Plasmas are an attractive medium for the next generation of particle accelerators because they can s...