A Polarimetric Experiment With a Laue Lens and CZT Pixel Detector

A new generation of high sensitivity telescopes based on the use of Laue lenses coupled with high efficiency solid state focal plane detectors has been identified as a possibility for hard X and soft gamma ray astronomy. For this kind of space mission, polarimetry is recognized as a very important observational parameter and therefore this capability should be included as one of the primary scientific requirements. In this framework our group has realized an experiment to demonstrate that the combination of a Laue Lens, built using Cu mosaic crystals, with a CZT pixel detector is capable of measuring the polarization of hard X ray sources contemporaneously with spectroscopy and imaging. This experiment was performed at the beginning of March 2008 using the ID15B beam line at ESRF (Grenoble). The instrument was based on a pixel CZT detector (5 mm thick array with 11 x 11 pixels of 2.5 x 2.5 mm(2) with a sensitive area of 3 x 3 cm(2) in conjunction with a mosaic Cu crystal (15 x 15 mm(2), 4 mm thick) used in the Laue diffraction configuration. During the tests the Cu crystal was rotated so as to simulate a Laue lens ring, and the detector was moved in order to have the diffracted beam always impinging on the same pixel. The ID15B beamline allowed us to test the response of this system to almost 100% linearly polarized photons at similar to 90, 270, and 350 keV. In this paper, we describe the experimental setup and we report on the first results, with particular emphasis on the evaluation of possible systematic effects introduced in the detected polarization of the impinging photons by the Laue diffraction process.