A Precision Optical Calibration Module (POCAM) for IceCube-Gen2

We present here a new concept of an in-situ self-calibrated isotropic light source for the future IceCube-Gen2 neutrino detector called the Precision Optical Calibration Module (POCAM). IceCube-Gen2 will be a matrix of light sensors buried deep in the ice at the geographic South Pole. The timing, th...

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Bibliographic Details
Published in:EPJ Web of Conferences
Main Authors: Jurkovič M., Abraham K., Holzapfel K., Krings K., Resconi E., Veenkamp J.
Format: Article in Journal/Newspaper
Language:English
Published: EDP Sciences 2016
Subjects:
Online Access:https://doi.org/10.1051/epjconf/201611606001
https://doaj.org/article/97a9548db80c4708895207f721c2a397
Description
Summary:We present here a new concept of an in-situ self-calibrated isotropic light source for the future IceCube-Gen2 neutrino detector called the Precision Optical Calibration Module (POCAM). IceCube-Gen2 will be a matrix of light sensors buried deep in the ice at the geographic South Pole. The timing, the location, and the amount of Cherenkov light deposited by the secondary charged particles are used to reconstruct the properties of the incident neutrinos. The reconstruction relies on a detailed detector model that includes the response of optical modules to the Cherenkov light, as well as the optical properties of the detector medium – the natural Antarctic ice. To understand these properties, both natural, and artificial light sources are already used for calibration. New calibration devices are being developed in order to improve the precision of these measurements, and reduce systematic errors. The POCAM concept is based on the principle of an inverted integrating sphere. The main components are LEDs emitting light at several wavelengths and solid-state light sensors e.g. calibrated photodiode or silicon photomultipliers to monitor the emitted light intensity. We report on the current status of the POCAM R&D.