# Femtosecond profiling of shaped X-ray pulses

**Authors:** M. C. Hoffmann, I. Grgura\v{s}, C. Behrens, C. Bostedt, J. Bozek, H., Bromberger, R. Coffee, J.T. Costello, L.F. DiMauro, Y. Ding, G.Doumy, W., Helml, M. Ilchen, R. Kienberger, S. Lee, A.R. Maier, T. Mazza, M. Meyer, M., Messerschmidt, S. Schorb, W. Schweinberger, K. Zhang, A.L. Cavalieri

arXiv: 1705.01938 · 2018-04-18

## TL;DR

This paper demonstrates femtosecond-resolved characterization of shaped X-ray pulses at a free-electron laser, enabling precise control and future pulse shaping techniques.

## Contribution

It introduces a method to directly measure and characterize shaped X-ray pulses with femtosecond resolution using photoelectron streaking spectroscopy.

## Key findings

- Successful generation of X-ray pulse pairs with variable properties
- Single-shot femtosecond characterization of X-ray pulses
- Advancement towards precise X-ray pulse shaping techniques

## Abstract

Arbitrary manipulation of the temporal and spectral properties of X-ray pulses at free-electron lasers (FELs) would revolutionize many experimental applications. At the Linac Coherent Light Source at Stanford National Accelerator Laboratory, the momentum phase-space of the FEL driving electron bunch can be tuned to emit a pair of X-ray pulses with independently variable photon energy and femtosecond delay. However, while accelerator parameters can easily be adjusted to tune the electron bunch phase-space, the final impact of these actuators on the X-ray pulse cannot be predicted with sufficient precision. Furthermore, shot-to-shot instabilities that distort the pulse shape unpredictably cannot be fully suppressed. Therefore, the ability to directly characterize the X-rays is essential to ensure precise and consistent control. In this work, we have generated X-ray pulse pairs and characterized them on a single-shot basis with femtosecond resolution through time-resolved photoelectron streaking spectroscopy. This achievement completes an important step toward future X-ray pulse shaping techniques.

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Source: https://tomesphere.com/paper/1705.01938