# Observations of Coherent Optical Transition Radiation Interference   Fringes Generated by Laser Plasma Accelerator Electron Beamlets

**Authors:** Alex Lumpkin (Fermilab) Maxwell LaBerge (Texas U.) Donald Rule, (Unlisted, US, MD) Rafal Zgadzaj, Andrea Hannasch, Michael Downer (Texas U.), Omid Zarini (HZDR, Dresden) Brant Bowers (Texas U.) Arie Irman, Jurgen, Couperus, Alexander Debus, Alexander Kohler, Ulrich Schramm (HZDR, Dresden)

arXiv: 1812.10778 · 2018-12-31

## TL;DR

This paper presents initial observations of coherent optical transition radiation interference fringes generated by microbunched electron beamlets from laser plasma accelerators, revealing detailed beam properties and demonstrating enhanced interferometry effects.

## Contribution

It reports the first experimental observation of COTRI patterns from laser plasma accelerator electron beamlets, with analysis of beam divergence, size, and emittance, advancing diagnostics of plasma-accelerated beams.

## Key findings

- Sub-mrad beam divergences deduced from interferometry
- Micron-scale transverse beamlet sizes observed
- Significant intensity enhancements over incoherent OTR

## Abstract

We report initial observations of coherent optical transition radiation interferometry (COTRI) patterns generated by microbunched electrons from laser-driven plasma accelerators (LPAs). These are revealed in the angular distribution patterns obtained by a CCD camera with the optics focused at infinity, or the far-field, viewing a Wartski two-foil interferometer. The beam divergences deduced by comparison to results from an analytical model are sub-mrad, and they are smaller than the ensemble vertical beam divergences measured at the downstream screen of the electron spectrometer. The transverse sizes of the beamlet images were obtained with focus at the object, or near field, and were in the few-micron regime as reported by LaBerge et al. The enhancements in intensity are significant relative to incoherent optical transition radiation (OTR) enabling multiple cameras to view each shot. We present two-foil interferometry effects coherently enhanced in both the 100-TW LPA at 215 MeV energy at Helmholtz-Zentrum Dresden-Rossendorf and the PW LPA at 1.0-GeV energy at the University of Texas-Austin. A transverse emittance estimate is reported for a microbunched beamlet example generated within the plasma bubble.

---
Source: https://tomesphere.com/paper/1812.10778