The development of long, tunable structures is critical to increasing energy gain in laser-driven dielectric accelerators (DLAs). Here we combine pulse-front-tilt illumination with slab-geometry structures assembled by precisely aligning off-the-shelf 4~mm long transmission gratings to achieve up to 200 keV energy modulation for 6 MeV injected electrons. The effective interaction length is longer than 1~mm, limited by dephasing of the accelerated particles in the structure. The piezo-based independent mounting system for the gratings allows tuning of the gap and field distribution inside the structure.
@article{arxiv.2310.12384,
title = {Extended Interaction Length Laser-Driven Acceleration in a Tunable Dielectric Structure},
author = {Sophie Crisp and Alexander Ody and Joel England and Pietro Musumeci},
journal= {arXiv preprint arXiv:2310.12384},
year = {2023}
}