TY - JOUR
T1 - High-spatial-resolution ultrafast framing imaging at 15 trillion frames per second by optical parametric amplification
AU - Zeng, Xuanke
AU - Zheng, Shuiqin
AU - Cai, Yi
AU - Lin, Qinggang
AU - Liang, Jinyang
AU - Lu, Xiaowei
AU - Li, Jingzhen
AU - Xie, Weixin
AU - Xu, Shixiang
N1 - KAUST Repository Item: Exported on 2020-10-01
Acknowledgements: This work was supported partly by the National Natural Science Foundation of China (Nos. 61775142 and 61705132), the Shenzhen Basic Research Project on the subject layout (No. JCYJ20170412105812811), the Shenzhen Basic Research Projects (Nos. JCYJ20170412105812811, JCYJ20190808164007485, and JCYJ20190808115601653), and the Natural Sciences and Engineering Research Council of Canada (Nos. RGPIN-2017-05959 and RGPAS-507845-2017). There are no conflicts of interest.
PY - 2020/9/16
Y1 - 2020/9/16
N2 - We report a framing imaging based on noncollinear optical parametric amplification (NCOPA), named FINCOPA, which applies NCOPA for the first time to single-shot ultrafast optical imaging. In an experiment targeting a laser-induced air plasma grating, FINCOPA achieved 50 fs-resolved optical imaging with a spatial resolution of ∼83 lp∕mm and an effective frame rate of 10 trillion frames per
second (Tfps). It has also successfully visualized an ultrafast rotating optical field with an effective frame rate of 15 Tfps. FINCOPA has simultaneously a femtosecond-level temporal resolution and frame interval and a micrometer-level spatial resolution. Combining outstanding spatial and temporal resolutions with an ultrahigh frame rate, FINCOPA will contribute to high-spatiotemporal resolution observations of ultrafast transient events, such as atomic or molecular dynamics in photonic materials, plasma physics, and laser
inertial-confinement fusion
AB - We report a framing imaging based on noncollinear optical parametric amplification (NCOPA), named FINCOPA, which applies NCOPA for the first time to single-shot ultrafast optical imaging. In an experiment targeting a laser-induced air plasma grating, FINCOPA achieved 50 fs-resolved optical imaging with a spatial resolution of ∼83 lp∕mm and an effective frame rate of 10 trillion frames per
second (Tfps). It has also successfully visualized an ultrafast rotating optical field with an effective frame rate of 15 Tfps. FINCOPA has simultaneously a femtosecond-level temporal resolution and frame interval and a micrometer-level spatial resolution. Combining outstanding spatial and temporal resolutions with an ultrahigh frame rate, FINCOPA will contribute to high-spatiotemporal resolution observations of ultrafast transient events, such as atomic or molecular dynamics in photonic materials, plasma physics, and laser
inertial-confinement fusion
UR - http://hdl.handle.net/10754/665268
UR - https://www.spiedigitallibrary.org/journals/advanced-photonics/volume-2/issue-05/056002/High-spatial-resolution-ultrafast-framing-imaging-at-15-trillion-frames/10.1117/1.AP.2.5.056002.full
U2 - 10.1117/1.ap.2.5.056002
DO - 10.1117/1.ap.2.5.056002
M3 - Article
SN - 2577-5421
VL - 2
JO - Advanced Photonics
JF - Advanced Photonics
IS - 05
ER -