Publications
Project highlights (from March 2007)
Applied Physics Letters paper (2012)
on guiding of femtosecond pulses in tapered capillaries.
Nature Physics paper (2011)
on gamma-rays from harmonically resonant betatron oscillations in a plasma wake.
New Journal of Physics paper (2011)
on superradiant scaling in the linear regime of the chirped pulse Raman amplifier.
Applied Physics Letters paper (2010)
on upconversion of a relativistic Coulomb field terahertz pulse to the near infrared.
Europhysics Letters paper (2010)
on charged relativistic fluids and non-linear electrodynamics.
Physical Review Letters paper (2010)
on low emittance measurements of LWFA electron beams.
Plasma Physics and Controlled Fusion paper (2010)
on narrow energy spread electron beams from a LWFA.
Physical Review Letters paper (2010)
on THz interferometry on LWFA electrons for bunch length measurements.
Physics of Plasmas paper (2010)
on wavebreaking and heating effects in Raman amplification.
Physics of Plasmas paper (2010)
on the role of absorption in Raman amplification in warm plasma.
Physics of Plasmas paper (2010)
on photon acceleration in the amplified wake of two copropagating laser pulses.
Physics of Plasmas paper (2009)
on the method of using undulator radiation to determine the energy spread of LWFA electron beams.
Physical Review Letters paper (2008)
on the production of monoenergetic electron beams using dual collinear laser pulses.
Physical Review Letters paper (2008)
on the acceleration of electrons in a partially ionised plasma channel.
Nature Physics paper (2008)
on the generation of visible synchrotron radiation pulses using electron bunches from a laser-driven wakefield accelerator.
Physical Review Letters paper (2007)
on electro-optic monitors for femtosecond electron bunches.
Physics of Plasmas paper (2007)
on the modelling of weakly nonlinear laser pulses in a curved plasma channel.
Complete list of relevant published papers
Theory
RF Photoinjector
Plasma Channels
Laser Wakefield Acceleration
Diagnostics
Free Electron Laser
Raman Amplification
Ion Acceleration
Nuclear Physics
RCUK Basic Technology Grant:
Project Highlights
For information contact
Prof. Dino Jaroszynski
