The Prototype Station for the IceCube Surface Array Enhancement

IceTop, the surface array of the IceCube Neutrino Observatory at the geographic South Pole, serves as both, a veto for the in-ice neutrino detection and a cosmic-ray detector. It consists of 162 ice-Cherenkov tanks, distributed over an area of 1 km$^2$. Due to snow accumulation on top of the tanks,...

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Bibliographic Details
Main Author: Oehler, Marie Johanna
Other Authors: Engel, R.
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: KIT-Bibliothek, Karlsruhe 2022
Subjects:
IceCube
Scintillation Detector
Cosmic Rays
Extensive Air Shower
Astroparticle physics
Detector development
Photosensor
SiPM
Data Acquisition
ddc:530
Physics
info:eu-repo/classification/ddc/530
South pole
Online Access:https://publikationen.bibliothek.kit.edu/1000142813
https://publikationen.bibliothek.kit.edu/1000142813/145415764
https://doi.org/10.5445/IR/1000142813
Description
Summary:IceTop, the surface array of the IceCube Neutrino Observatory at the geographic South Pole, serves as both, a veto for the in-ice neutrino detection and a cosmic-ray detector. It consists of 162 ice-Cherenkov tanks, distributed over an area of 1 km$^2$. Due to snow accumulation on top of the tanks, the resolution of IceTop decreases and the energy threshold increases. The Surface Array Enhancement (SAE) will measure and mitigate the effects of the snow accumulation, enhance the veto capabilities and improve cosmic-ray measurements by increasing the detection sensitivity in the primary energy range of 100 TeV to 1 EeV. Additionally, it serves as R&D for the large-scale surface array of IceCube-Gen2, the planned next generation neutrino detector at the South Pole. 32 stations will be deployed within the current IceTop footprint. Each station comprises of eight elevated scintillation detectors with SiPM readout and three radio antennas, connected to a central DAQ. In the frame of this thesis, the designs of two initial R&D stations have been merged and optimized for the SAE. A prototype station was built and deployed at the South Pole in January 2020. The characterization and calibration of the scintillation detectors show a high light yield for individual particles, which enables a low energy threshold. Temperature effects of the SiPM readout are evaluated and compensated in the data analysis. First analyses of air-shower data of the prototype station are performed. A method to combine the data from the single detectors to air-shower events is established. The comparison of measured events with expectations from simulations shows agreement. Therefore, it can be concluded that the simulations are valid and that the scintillation detector effects are understood. For events, which are measured in coincidence with the scintillation detectors and IceTop, the comparison of the reconstruction results show that the angular resolution of a single station for events with coincident hits from eight scintillation ...

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