Mid-infrared lasers for energy frontier plasma accelerators

Plasma wake field accelerators driven with solid-state near-IR lasers have been considered as an alternative to conventional rf accelerators for next-generation TeV-class lepton colliders. Here, we extend this study to the mid-IR spectral domain covered by ${\mathrm{CO}}_2$ lasers. We conclude that the increase in the laser driver wavelength favors the regime of laser wake field acceleration with a low plasma density and high electric charge. This regime is the most beneficial for gamma colliders to be converted from lepton colliders via inverse Compton scattering. Selecting a laser wavelength to drive a Compton gamma source is essential for the design of such a machine. The revealed benefits from spectral diversification of laser drivers for future colliders and off-spring applications validate ongoing efforts in advancing the ultrafast ${\mathrm{CO}}_2$ laser technology.

Figure 1

BESTIA front end featuring a MOPA (Master Oscillator - Power Amplifier), the OPA seed pulse generator, and a CPA stretcher.

Figure 2

The CPA compression followed by the nonlinear pulse compressor setup.