• Title of article

    Precise alignment of laser and electron beams in a periodic focusing system for multiple Compton backscattering

  • Author/Authors

    Miyahara، نويسنده , , Yoshikazu، نويسنده ,

  • Pages
    12
  • From page
    68
  • To page
    79
  • Abstract
    In the present paper, methods of precise alignment of laser and electron beams in a periodic focusing system for generating intense γ-rays by multiple Compton backscattering are discussed. In the system, a CO2 laser beam and a 5.8 GeV electron beam are focused by a series of optical lenses and permanent quadrupole magnets, respectively. Since the beam sizes are as small as 20–50 μm at 120 collision points, a precise alignment within about 3 μm is required. The electron beam can be aligned by the energy-scanned beam-based method, but this method is not appropriate for the laser beam since the wavelength is not changed easily. Instead, a new method of normal reflection using Michelson interferometers is considered. Diffraction analysis shows that the misalignment of lenses can be corrected by reducing the integrated intensity of the laser beam at the detector of the interferometer, which decreases monotonically with the reduction of alignment errors.
  • Keywords
    Alignments of laser and electron beams , Beam-based method , Normal reflection method , Michelson interferometer
  • Journal title
    Astroparticle Physics
  • Record number

    2023421