Determining the duration of an intense laser pulse directly in focus

TL;DR

This paper introduces a new method to measure the duration of an intense laser pulse directly at its focus by analyzing the angular radiation pattern emitted by an electron bunch with a temporal energy chirp.

Contribution

The authors present a novel measurement technique that uses electron radiation patterns to determine laser pulse duration at full intensity, validated by analytical and numerical models.

Findings

Pulse duration can be measured with several percent accuracy.

The radiation pattern depends on the laser pulse's temporal profile.

The method works at the laser's full intensity.

Abstract

We propose a novel measurement technique capable of determining the temporal duration of an intense laser pulse directly in its focus at full intensity. We show that the electromagnetic radiation pattern emitted by an electron bunch with a temporal energy chirp colliding perpendicularly with the laser pulse exhibits a distinct dependence on the pulse's duration. As the electrons emit radiation into an angular region determined by the ratio of their instantaneous energy to the laser's local field strength, the temporal change of the electrons' energy imprints information about the laser's pulse duration onto the angular radiation distribution. We quantify the interaction by a simplified analytical model and confirm this model's predictions by numerical simulations of the electrons' dynamics inside a realistically focused laser field. Based on these findings the pulse's duration can be determined to an accuracy of several percent.