Simultaneous dual wavelength CPA operation of the vulcan laser for particle acceleration experiments

Summary form only given. A chirped pulse amplification laser configuration capable of particle acceleration through the driving of a plasma beatwave into saturation before modulation instabilities can grow is reported. The configuration is based on generating a single sub-ps, broad bandwidth pulse (/spl sim/16 nm) and stretching and filtering to select two wavelength components (separation /spl sim/7 nm). The two spectral components are temporally stretched (to >100 ps) and separated (by /spl sim/1 ns). The pulses are then amplified in a single Nd:glass chain to greater than 15 J per pulse. Using a single pass reflective grating compressor the pulses are temporally compressed to between 2 and 5 ps and automatically synchronised. Moreover, the system is capable of introducing a chirp into the actual beat, such that the compressed pulses can compensate for relativistic detuning of the plasma wave. The optimum laser amplification and recombination configuration for generating a saturated laser driven beatwave is presented and options for future work discussed.