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Development of a Sub-glacial Radio Telescope for the Detection of GZK Neutrinos electronic resource by Thomas Meures.

By: Meures, Thomas [author.]Contributor(s): SpringerLink (Online service)Material type: TextTextSeries: Springer Theses, Recognizing Outstanding Ph.D. ResearchPublication details: Cham : Springer International Publishing : Imprint: Springer, 2015Description: XIII, 159 p. 111 illus., 69 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783319187563Subject(s): physics | Astrophysics | Particle acceleration | Physical measurements | Measurement | Physics | Particle Acceleration and Detection, Beam Physics | Astrophysics and Astroparticles | Measurement Science and InstrumentationDDC classification: 539.73 LOC classification: QC770-798Online resources: Click here to access online
Contents:
Introduction -- The GZK Neutrino Flux -- The Askaryan Effect in Dense Media -- The Askaryan Radio Array (ARA) -- The Calibration of the Ice Ray Sampler (IRS2) Chip -- The Calibration of the ARA Station Geometry -- Simulations -- Algorithms for the ARA Data Analysis -- Signal Discrimination in the ARA02-ARA03 Data -- Data Analysis Results -- Summary and Outlook.
In: Springer eBooksSummary:  The goal of the project presented in this book is to detect neutrinos created by resonant interactions of ultrahigh energy cosmic rays on the CMB photon field filling the Universe. In this pioneering first analysis, the author puts forward much of the analysis framework, including calibrations of the electronic hardware and antenna geometry, as well as the development of algorithms for event reconstruction and data reduction. While only two of the 37 stations planned for the Askaryan Radio Array were used in this assessment of 10 months of data, the analysis was able to exclude neutrino fluxes above 10 PeV with a limit not far from the best current limit set by the IceCube detector, a result which establishes the radio detection technique as the path forward to achieving the massive volumes needed to detect these ultrahigh energy neutrinos.
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Introduction -- The GZK Neutrino Flux -- The Askaryan Effect in Dense Media -- The Askaryan Radio Array (ARA) -- The Calibration of the Ice Ray Sampler (IRS2) Chip -- The Calibration of the ARA Station Geometry -- Simulations -- Algorithms for the ARA Data Analysis -- Signal Discrimination in the ARA02-ARA03 Data -- Data Analysis Results -- Summary and Outlook.

 The goal of the project presented in this book is to detect neutrinos created by resonant interactions of ultrahigh energy cosmic rays on the CMB photon field filling the Universe. In this pioneering first analysis, the author puts forward much of the analysis framework, including calibrations of the electronic hardware and antenna geometry, as well as the development of algorithms for event reconstruction and data reduction. While only two of the 37 stations planned for the Askaryan Radio Array were used in this assessment of 10 months of data, the analysis was able to exclude neutrino fluxes above 10 PeV with a limit not far from the best current limit set by the IceCube detector, a result which establishes the radio detection technique as the path forward to achieving the massive volumes needed to detect these ultrahigh energy neutrinos.

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