Hydroacoustic Detection of Ultra-High Energy Cosmic Neutrinos

An attractive technique to explore for super-high-energy cosmic neutrino fluxes, via deep underwater acoustic detection, is discussed. Acoustic signals emitted by the neutrino induced cascades at large distances (10-50 km) from cascades are considered. It is argued that an existing hydroacoustic arr...

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Bibliographic Details
Main Authors: Dedenko, L G, Furduev, A V, Karlik, Y S, Learned, J G, Mironovich, A A, Svet, V D, Zheleznykh, I M
Language:English
Published: 1997
Subjects:
Astrophysics and Astronomy
Kamchatka Peninsula
Kamchatka
Online Access:http://cds.cern.ch/record/326544
Description
Summary:An attractive technique to explore for super-high-energy cosmic neutrino fluxes, via deep underwater acoustic detection, is discussed. Acoustic signals emitted by the neutrino induced cascades at large distances (10-50 km) from cascades are considered. It is argued that an existing hydroacoustic array of 2400 hydrophones, which is available in the Great Ocean near Kamchatka Peninsula, could be used as a base for an exploratory acoustic neutrino telescope SADCO (Sea Acoustic Detector of Cosmic Objects). The detection volume for registration of cascades with energies in the range of $10^{20-21} eV$ is estimated to be hundreds of cubic kilometers. Some models of extremely high energy elementary particle production in the Universe (for example the topological defect model) may be examined by such a detector. Tests of this technique are hoped for within a year.

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