Submission: poster

Authors: Richard Jones, Igor Senderovich (University of Connecticut)

Title: Beam Position Stabilization Using an Active Collimator in Hall D at Jefferson Lab

Abstract: The GlueX experiment planned for Hall D at Jefferson Lab relies on the process of coherent bremsstrahlung by 12 GeV electrons in a diamond crystal to produce a secondary beam of 9 GeV photons with a high degree of linear polarization.  To achieve optimum polarization, the photon beam must be collimated to a half-angle of 20 microradians, which requires a long flight path of 75 m between the radiator and collimator and a means to keep the beam spot centered on the collimator aperture with an accuracy of a few microradians.  A active collimator has been designed which is capable of monitoring the centroid of the photon beam to within +/- 200 microns, with a sampling frequency of up to several hundred Hz.  A prototype of this this device has been tested in the photon beam in Hall B.  Results from this test are presented.