Plasma Wake-Field Acceleration (PWFA) has demonstrated acceleration gradients above 50 GeV/m. Simulations have shown drive/witness bunch configurations that yield small energy spreads in the accelerated witness bunch and high energy transfer efficiency from the drive bunch to the witness bunch, ranging from 30% for a Gaussian drive bunch to 95% for a shaped longitudinal profile. These results open the opportunity for a linear collider that could be compact, efficient and more cost effective that the present microwave technologies. A concept of a PWFA-based Linear Collider (PWFA-LC) has been developed and is described in this paper. The drive beam generation and distribution, requirements on the plasma cells, and optimization of the interact...
Physics considerations for a next-generation linear collider based on laser-plasma accelerators are ...
Particle physics is addressing some of the grandest questions, armed with big science machines: high...
The next generation of linear collider after the SLC (Stan-ford Linear Collider) will probably have ...
Abstract Plasma Wake-Field Acceleration (PWFA) has demonstrated acceleration gradients above 50 GeV/...
Plasma Wake-Field Acceleration (PWFA) has demonstrated acceleration gradients above 50 GeV/m. Simula...
Recent Plasma Wake-Field Acceleration (PWFA) exper-iments at Stanford Linear Accelerator Center has ...
Plasma wakefield acceleration (PWFA) holds much promise for advancing the energy frontier because it...
During the past two decades of research, the ultra-relativistic beam-driven plasma wakefield acceler...
Plasma-wakefield acceleration (PWFA) relies on the interaction between intense particle bunches and ...
A linear electron-positron collider operating at TeV-scale energies will provide high precision meas...
There is no clear path for building a particle accelerator at the energy frontier beyond the Large H...
Beam-driven plasma wakefield acceleration (PWFA) is considered one of the most promising novel accel...
A concept for increasing the energy of a multibunch linear collider using plasma wakefields is exami...
In a linear collider, low frequency favours efficiency of power transfer to the beam and high freque...
The potential for high average gradients makes plasma wakefield acceleration (PWFA) an attracting op...
Physics considerations for a next-generation linear collider based on laser-plasma accelerators are ...
Particle physics is addressing some of the grandest questions, armed with big science machines: high...
The next generation of linear collider after the SLC (Stan-ford Linear Collider) will probably have ...
Abstract Plasma Wake-Field Acceleration (PWFA) has demonstrated acceleration gradients above 50 GeV/...
Plasma Wake-Field Acceleration (PWFA) has demonstrated acceleration gradients above 50 GeV/m. Simula...
Recent Plasma Wake-Field Acceleration (PWFA) exper-iments at Stanford Linear Accelerator Center has ...
Plasma wakefield acceleration (PWFA) holds much promise for advancing the energy frontier because it...
During the past two decades of research, the ultra-relativistic beam-driven plasma wakefield acceler...
Plasma-wakefield acceleration (PWFA) relies on the interaction between intense particle bunches and ...
A linear electron-positron collider operating at TeV-scale energies will provide high precision meas...
There is no clear path for building a particle accelerator at the energy frontier beyond the Large H...
Beam-driven plasma wakefield acceleration (PWFA) is considered one of the most promising novel accel...
A concept for increasing the energy of a multibunch linear collider using plasma wakefields is exami...
In a linear collider, low frequency favours efficiency of power transfer to the beam and high freque...
The potential for high average gradients makes plasma wakefield acceleration (PWFA) an attracting op...
Physics considerations for a next-generation linear collider based on laser-plasma accelerators are ...
Particle physics is addressing some of the grandest questions, armed with big science machines: high...
The next generation of linear collider after the SLC (Stan-ford Linear Collider) will probably have ...