@misc{oai:repo.qst.go.jp:00072791,
 author = {黄, 開 and 黄 開},
 month = {May},
 note = {By introducing the EO spatial decoding technique, we succeeded clocking the
electron beams generated from LWFA. The Coulomb field front was discovered to
have a spherical structure due to plasma shielding and a new temporal mapping
relationship was developed. The injection position of the electron beams was
discovered to become closer to the drive laser pulse with increased plasma density
for Helium gas in the self-injection regime. With superior data attainability and
non-destructive single-shot characteristics, this method could be a candidate as
electron timing monitor for LWFA experiments., 光・量子ビーム科学合同シンポジウム2018},
 title = {Timing measurement on the laser wakefield accelerated electrons via electro-optic spatial decoding},
 year = {2018}
}