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Paper detail

FACT - How stable are the silicon photon detectors?

The First G-APD Cherenkov telescope (FACT) is the first telescope using silicon photon detectors (G-APD aka. SiPM). The use of Silicon devices promise a higher photon detection efficiency, more robustness and higher precision than photo-multiplier tubes. Since the properties of G-APDs depend on auxiliary parameters like temperature, a feedback system adapting the applied voltage accordingly is mandatory. In this presentation, the feedback system, developed and in operation for FACT, is presented. Using the extraction of a single photon-equivalent (pe) spectrum as a reference, it can be proven that the sensors can be operated with very high precision. The extraction of the single-pe, its spectrum up to 10\,pe, its properties and their precision, as well as their long-term behavior during operation are discussed. As a by product a single pulse template is obtained. It is shown that with the presented method, an additional external calibration device can be omitted. The presented method is essential for the application of G-APDs in future projects in Cherenkov astronomy and is supposed to result in a more stable and precise operation than possible with photo-multiplier tubes.

preprint2013arXivOpen access
T. BretzA. BilandJ. BußD. DornerS. EineckeD. EisenacherD. HildebrandM. L. KnoetigT. KrähenbühlW. LustermannK. MannheimK. MeierD. NeiseA. -K. OverkempingA. ParavacF. PaussW. RhodeM. RibordyT. SteinbringF. TemmeJ. ThaeleP. VoglerR. WalterQ. WeitzelM. Zänglein
physics.ins-detastro-ph.IM
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T. BretzA. BilandJ. BußD. DornerS. EineckeD. EisenacherD. HildebrandM. L. KnoetigT. KrähenbühlW. LustermannK. MannheimK. MeierD. NeiseA. -K. OverkempingA. ParavacF. PaussW. RhodeM. RibordyT. SteinbringF. TemmeJ. ThaeleP. VoglerR. WalterQ. WeitzelM. Zänglein

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