Determination of few femtosecond to attosecond electron bunch durations using a passive plasma lens

TL;DR

This paper presents a non-invasive numerical method to measure femtosecond to attosecond electron bunch durations using a passive plasma lens, suitable for advanced accelerator applications.

Contribution

The paper introduces a novel, passive plasma lens-based technique for reconstructing ultrashort electron bunch durations without external RF or spectrometers.

Findings

Numerical reconstruction of electron bunches down to 30 attoseconds.

Experimental demonstration with a 3 femtosecond electron bunch.

Applicable to high current, laser-driven, and particle-driven wakefield accelerators.

Abstract

Determining the pulse duration of femtosecond electron bunches is challenging and often experimentally invasive. An effective method for measuring the duration based on the time-dependent variations in electron beam divergence induced by a passive plasma lens is described. Reconstruction of the temporal shape of the electron bunch down to $c \cdot dt=10$ nm ($\sim 30$ as) without external RF-cavities or multi-octave spanning spectrometer is shown numerically. Experimental data from a $\sim$ 3fs electron bunch demonstrates practical applicability of this method. While this approach can be used with any high current electron beam, it is particularly well matched to laser-driven and particle-driven wakefield accelerators and also accommodates electron beams with a time-dependent beam-energy (eg. 'chirp').