Abstract
Abstract:
The channelling phenomenon applies to the correlated motion of charged particles
within a crystal lattice in a direction closely aligned with atomic rows (strings) or crystal
planes. When the incident charge particle is highly relativistic, the emitted channeling radiation
is boosted by a factor of γ2, where γ is the Lorentz factor. Bremsstrahlung may also be coherent
for these conditions, and coherent enhancement leads to both quasi monoenergetic peaks and also
significant increases in intensity as compared to the normal process. In the special condition that
the crystal is periodically bent, such as in a periodic superlattice, one may also have undulator
radiation. All of these phenomena are potential sources of MeV and GeV range intense gamma
radiation. The latter phenomenon is proposed as potentially the most important source of
monochromatic high energy photons. In principle it can also lead to coherent radiation based
on the Free Electron Laser (FEL) principle with intensities similar to an extrapolation of what may
be obtained at modern light sources. In this contribution we describe a search for crystal
undulator radiation using 2.5 – 6.0 GeV positrons incident on a diamond crystal undulator. The
experiments were performed at the T9 Beam-line of the Proton Synchrotron at CERN. The experiment
was the result of a winning proposal for the 2015 CERN Beam-line for Schools
Competition.