Recent Progress with Brookhaven's ATF LWIR Laser and Future Experimental Plans
Abstract
Recent interest in driving laser wakefield acceleration (LWFA) with mid- and long-wave infrared sources at plasma densities of 1015 to 1017 cm-3 has been motivated by the advantages of high ponderomotive potential, larger critical density bubble volume, and relaxed phasing/staging tolerances. The highest energy drivers in the LWIR regime are large-aperture CO2 lasers capable of producing several joules and few picosecond pulse duration. The Brookhaven ATF LWIR laser has continuously evolved to deliver higher peak powers benefiting a range of experiments, including LWFA. Up to 5 TW in a 2 ps pulse at 9.2 micron is presently available for experiments in combination with synchronized electron bunches and NIR laser pulses. Techniques used to achieve the current operating parameters will be described, compared with laser simulations, and highlighted by comparison with requirements for LWFA experiments underway at the facility. CO2 laser-driven LWFA plasma measurements using both optical and electron probes will be presented and compared with numerical simulations.
- Publication:
-
APS Division of Plasma Physics Meeting Abstracts
- Pub Date:
- 2019
- Bibcode:
- 2019APS..DPPBO6011B