Speakers
Dr
Alexander Debus
(HZDR)Mr
Omid Zarini
(Helmholtz-Zentrum Dresden-Rossendorf)
Description
Laser-wakefield accelerators (LWFA) feature electron bunch durations on a scale of a few fs. Precise knowledge of the longitudinal profile of such ultra-short electron bunches is essential for the design of future table-top X-ray light sources. The resolution limit, as well as the limited reproducibility of electron bunches, pose big challenges for LWFA beam diagnostics.
Spectral measurements of broadband transition radiation from LWFA electron bunches passing through a metal foil are especially promising for analyzing ultrashort longitudinal bunch characteristics ranging from of tens of fs down to sub-fs.
Our broadband, single-shot spectrometer combines the TR spectrum in UV/VIS (200-1000nm), NIR (0.9-1.7μm) and mid-IR (1.6-12μm). A complete characterization and calibration of the spectrometer has been done with regard to wavelengths, relative spectral sensitivities and absolute photometric sensitivity. Our spectrometer is able to characterize electron bunches with charges as low as 1 pC and resolve time-scales from 0.4 to 40 fs.
We present results from recent measurement campaign by analyzing transition radiation spectra produced by nC class LWFA electron bunches using ionization-injection, while complementary data on the transverse bunch profile is provided by simultaneously imaging the CTR in the far- and near-field.
We discuss the data analysis from detection to profile reconstruction with error analysis and show electron bunch profiles as determined from experimental density scan measurements.
Primary authors
Dr
Alexander Debus
(HZDR)
Mr
Omid Zarini
(Helmholtz-Zentrum Dresden-Rossendorf)
Co-authors
Mr
Alexander Köhler
(Helmholtz-Zentrum Dresden - Rossendorf)
Mrs
Andrea Hannasch
(University of Texas Austin)
Dr
Arie Irman
(HZDR)
Jurjen Couperus
(Helmholtz-Zentrum Dresden - Rossendorf)
Mr
Maxwell LaBerge
(University of Taxas Austin)
Prof.
Michael Downer
(University of Texas Austin)
Mr
Thomas Kurz
(HZDR)
Prof.
Ulrich Schramm
(HZDR)