135 / 2026-03-31 11:03:24
Far-Field Measurement of Laser Pulse Duration and Signal-to-Noise Ratio Based on a Plasma Grating
Plasma grating,Far-Field,Ultrafast Measurement
Abstract Accepted
Jimin Wang / Laser Fusion Research Center, China Academy of Engineering Physics
Zhaohui Wu / Laser Fusion Research Center, China Academy of Engineering Physics
Yanlei Zuo / Research Center of Laser Fusion; China Academy of Engineering Physics
Hao Peng / Shenzhen Technology University
The far-field temporal information of ultrashort ultra-intense lasers at focus is crucial for strong-field physics research. However, current far-field characterization mainly relies on reconstruction from near-field data combined with a transfer function, and the associated error can exceed 50%. To address this problem, we propose a direct diagnostic method for the far field of a laser based on a plasma grating. The temporal information of the laser pulse is encoded into the plasma grating through interference-driven ionization and is then reconstructed from the diffraction of a probe beam, thereby enabling direct measurement of the laser temporal properties in the focal region.Experimentally, we demonstrate for the first time the measurement of far-field temporal information at a peak intensity of about . The pulse duration is measured over the range from 35 to 130 fs. Within a 100 ps temporal window, the dynamic range of the temporal contrast reaches , with a resolution better than 100 fs.This method features a simple experimental setup, no restriction on the laser central wavelength, and reliable operation at extremely high peak intensities. It therefore provides a robust solution for far-field diagnostics in high-power laser systems.

 
Important Date
  • May 12

    2026

    Conference Date

  • Apr 15 2026

    Draft paper submission deadline

  • May 12 2026

    Registration deadline

Sponsored By
National Key Laboratory of Plasma Physics, Laser Fusion Research Center, China Academy of Engineering Physics
Xiamen University