| Literature DB >> 16486939 |
Marcus Babzien1, Ilan Ben-Zvi, Karl Kusche, Igor V Pavlishin, Igor V Pogorelsky, David P Siddons, Vitaly Yakimenko, David Cline, Feng Zhou, Tachishige Hirose, Yoshio Kamiya, Tetsuro Kumita, Tsunehiko Omori, Junji Urakawa, Kaoru Yokoya.
Abstract
A free relativistic electron in an electromagnetic field is a pure case of a light-matter interaction. In the laboratory environment, this interaction can be realized by colliding laser pulses with electron beams produced from particle accelerators. The process of single photon absorption and reemission by the electron, so-called linear Thomson scattering, results in radiation that is Doppler shifted into the x-ray and gamma-ray regions. At elevated laser intensity, nonlinear effects should come into play when the transverse motion of the electrons induced by the laser beam is relativistic. In the present experiment, we achieved this condition and characterized the second harmonic of Thomson x-ray scattering using the counterpropagation of a 60 MeV electron beam and a subterawatt CO2 laser beam.Entities:
Year: 2006 PMID: 16486939 DOI: 10.1103/PhysRevLett.96.054802
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161