@misc{oai:repo.qst.go.jp:00072408,
 author = {ホァン, カイ and 小瀧, 秀行 and 森, 道昭 and 林, 由紀雄 and 中新, 信彦 and エシロケポフ, ティムル and コーガ, ジェームズ and ブラノフ, セルゲイ and 神門, 正城 and 黄 開 and 小瀧 秀行 and 森 道昭 and 林 由紀雄 and 中新 信彦 and エシロケポフ ティムル and コーガ ジェームズ and ブラノフ セルゲイ and 神門 正城},
 month = {Jul},
 note = {By introducing a non-destructive single-shot EO sampling technique, we succeeded in clocking the electron beams generated from LWFA. Statistics on the electron arrival time unambiguously demonstrated that LWFA in the self-injection regime is not necessarily jitter free. In the non-bubble self-injection case, the electron beams could have a timing gap up to 1ps for different plasma density. As a reference, stable arrival times at various plasma densities were demonstrated by using N2 gas in the ionization injection regime. With superior data attainability and non-destructive single-shot characteristics, this method could be a candidate as real time electron timing monitor for LWFA experiments., summer school on ’Laser-Driven Sources of High Energy Particles and Radiation’},
 title = {Clocking the electron beams from laser wakefield acceleration via electro-optic spatial encoding},
 year = {2017}
}