| Literature DB >> 25494074 |
G Sarri1, D J Corvan1, W Schumaker2, J M Cole3, A Di Piazza4, H Ahmed1, C Harvey1, C H Keitel4, K Krushelnick2, S P D Mangles3, Z Najmudin3, D Symes5, A G R Thomas2, M Yeung6, Z Zhao2, M Zepf7.
Abstract
We report on the generation of a narrow divergence (θ_{γ}<2.5 mrad), multi-MeV (E_{max}≈18 MeV) and ultrahigh peak brilliance (>1.8×10^{20} photons s^{-1} mm^{-2} mrad^{-2} 0.1% BW) γ-ray beam from the scattering of an ultrarelativistic laser-wakefield accelerated electron beam in the field of a relativistically intense laser (dimensionless amplitude a_{0}≈2). The spectrum of the generated γ-ray beam is measured, with MeV resolution, seamlessly from 6 to 18 MeV, giving clear evidence of the onset of nonlinear relativistic Thomson scattering. To the best of our knowledge, this photon source has the highest peak brilliance in the multi-MeV regime ever reported in the literature.Year: 2014 PMID: 25494074 DOI: 10.1103/PhysRevLett.113.224801
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161