Wavefront correction by target-phase-locking technology in a 500 TW laser facility

We demonstrate a novel approach termed target-phase-locking that could improve the entire beam wavefront quality of a 500 TW Nd3+: phosphate glass laser facility. The thermal and static wavefront from front-end to target is corrected by using one deformable mirror that receives feedback from both the focal-spot sensor and wavefront sensor, and only the main laser of the laser system is employed in the correction process, with auxiliary calibration light no longer necessary. As a result, a static focal spot with full width at half maximum of 8.87 x 5.74 mu m is achieved, the thermal wavefront induced by flash-lamp-pumped Nd3+: phosphate glass is compensated with PV from 3.54-0.43 mu m, and a dynamic focal spot with intensity exceeding 10(20) W cm(-2) is precisely predicted at the target with such an approach.