OBSERVATION OF COHERENT DIFFRACTION RADIATION FROM BUNCHED ELECTRONS PASSING THROUGH A CIRCULAR APERTURE IN THE MILLIMETER-WAVELENGTH AND SUBMILLIMETER-WAVELENGTH REGIONS
Y. Shibata et al., OBSERVATION OF COHERENT DIFFRACTION RADIATION FROM BUNCHED ELECTRONS PASSING THROUGH A CIRCULAR APERTURE IN THE MILLIMETER-WAVELENGTH AND SUBMILLIMETER-WAVELENGTH REGIONS, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics, 52(6), 1995, pp. 6787-6794
Using a short-bunched beam of electrons of 150 MeV, we have generated
diffraction radiation from a circular aperture in an aluminum plate in
the region of millimeter and submillimeter wavelengths. We have obser
ved superposition of the diffraction radiation and transition radiatio
n from an aluminum mirror. The angular distribution of the observed ra
diation shows interference of the two radiations. The intensity of the
radiation has been observed to be proportional to the square of the b
eam current. Compared with the theoretical intensity of incoherent rad
iation, the observed intensity of the radiation from an aperture of 10
mm at the wavelength of 1 mm has been enhanced by a factor of 1.5X10(
8), which is roughly equal to the number of electrons in a bunch. From
the observed spectrum, the longitudinal distribution of electrons in
a bunch has been derived with a spatial resolution of 0.1 mm, i.e., a
temporal resolution of 0.3 ps.