Add to ORKGAdvances in laser-plasma wake field accelerators (LWFA) have now reached the point where they can be considered as drivers of compact radiation sources covering an large spectral range. We present recent results from the Advanced Laser Plasma High-energy Accelerators towards X-rays (ALPHAX) project. These include the first ultra-compact gamma ray source producing brilliant 10fs pulses of x-ray photons > 150keV. We present new opportunities for harnessing laser-driven plasma waves to accelerate electrons to high energies and use these as a basis for ultra-compact radiation sources with unprecedented peak brilliance and pulse duration. We have demonstrated a brilliant tabletop gamma ray source based on enhanced betatron emission in a plasma c...
The laser driven plasma wakefield accelerator is a very compact source of high energy electrons. Whe...
Since the demonstration of a chirped-pulse amplification laser was first made in 1985, the amount of...
Measurements of the beam quality of electrons from the ALPHA-X laser-plasma accelerator show it is c...
Advances in laser-plasma wake field accelerators (LWFA) have now reached the point where they can be...
This thesis was previously held under moratorium from 24th July 2012 until 24th July 2014.Laser-plas...
The Advanced Laser-Plasma High-Energy Accelerators towards X-rays (ALPHA-X) programme is developing ...
Plasma waves excited by intense laser beams can be harnessed to produce femtosecond duration bunches...
Laser-driven plasma wakefield accelerators (LWFAs) based on table-top terawatt lasers have the poten...
The laser-plasma wakefield accelerator is a novel ultra-compact particle accelerator. A very intense...
In laser-wakefield acceleration (LWFA), a femtosecond laser pulse is tightly focused in a gas to int...
The laser-plasma wakefield accelerator is a novel ultra-compact particle accelerator. A very intense...
In laser-wakefield acceleration (LWFA), a femtosecond laser pulse is tightly focused in a gas to int...
Here we explore ways of transforming laser radiation into incoherent and coherent electromagnetic ra...
The laser driven plasma wakefield accelerator is a very compact source of high energy electrons. Whe...
Since the demonstration of a chirped-pulse amplification laser was first made in 1985, the amount of...
Measurements of the beam quality of electrons from the ALPHA-X laser-plasma accelerator show it is c...
Advances in laser-plasma wake field accelerators (LWFA) have now reached the point where they can be...
This thesis was previously held under moratorium from 24th July 2012 until 24th July 2014.Laser-plas...
The Advanced Laser-Plasma High-Energy Accelerators towards X-rays (ALPHA-X) programme is developing ...
Plasma waves excited by intense laser beams can be harnessed to produce femtosecond duration bunches...
Laser-driven plasma wakefield accelerators (LWFAs) based on table-top terawatt lasers have the poten...
The laser-plasma wakefield accelerator is a novel ultra-compact particle accelerator. A very intense...
In laser-wakefield acceleration (LWFA), a femtosecond laser pulse is tightly focused in a gas to int...
The laser-plasma wakefield accelerator is a novel ultra-compact particle accelerator. A very intense...
In laser-wakefield acceleration (LWFA), a femtosecond laser pulse is tightly focused in a gas to int...
Here we explore ways of transforming laser radiation into incoherent and coherent electromagnetic ra...
The laser driven plasma wakefield accelerator is a very compact source of high energy electrons. Whe...
Since the demonstration of a chirped-pulse amplification laser was first made in 1985, the amount of...
Measurements of the beam quality of electrons from the ALPHA-X laser-plasma accelerator show it is c...