The detection of extraterrestrial EHE neutrinos requires detection
volumes at least one order of magnitude larger than currently constructed
km3 optical neutrino detectors. In ice, it is anticipated that the
absorption length for acoustic waves reaches up to to several kilometers.
This makes ice an attractive host environment for a next generation
acoustic neutrino detector. To measure the acoustic properties of
ice at South Pole, a test setup has been developed, ready to be deployed
in the 2006/07 summer season.
%0 Journal Article
%1 Hundertmark2007
%A Hundertmark, S.
%A Boeser, S.
%A Bohm, C.
%A Descamps, F.
%A Fischer, J.
%A Hallgren, A.
%A Heller, R.
%A Hulth, P.O.
%A Krieger, K.
%A Nahnhauer, R.
%A Pohl, M.
%A Price, P. B.
%A Sulanke, K.-H.
%A Tosi, D.
%A Vandenbroucke, J.
%D 2007
%J J. Phys. Conf. Ser.
%K DESY acoustic, high-energy, icecube, neutrino, pole, south spats,
%P 292-295
%R 10.1088/1742-6596/60/1/063
%T SPATS: An acoustic array at the South Pole
%V 60
%X The detection of extraterrestrial EHE neutrinos requires detection
volumes at least one order of magnitude larger than currently constructed
km3 optical neutrino detectors. In ice, it is anticipated that the
absorption length for acoustic waves reaches up to to several kilometers.
This makes ice an attractive host environment for a next generation
acoustic neutrino detector. To measure the acoustic properties of
ice at South Pole, a test setup has been developed, ready to be deployed
in the 2006/07 summer season.
@article{Hundertmark2007,
abstract = {The detection of extraterrestrial EHE neutrinos requires detection
volumes at least one order of magnitude larger than currently constructed
km3 optical neutrino detectors. In ice, it is anticipated that the
absorption length for acoustic waves reaches up to to several kilometers.
This makes ice an attractive host environment for a next generation
acoustic neutrino detector. To measure the acoustic properties of
ice at South Pole, a test setup has been developed, ready to be deployed
in the 2006/07 summer season.},
added-at = {2009-03-11T17:29:05.000+0100},
author = {Hundertmark, S. and Boeser, S. and Bohm, C. and Descamps, F. and Fischer, J. and Hallgren, A. and Heller, R. and Hulth, P.O. and Krieger, K. and Nahnhauer, R. and Pohl, M. and Price, P. B. and Sulanke, K.-H. and Tosi, D. and Vandenbroucke, J.},
biburl = {https://www.bibsonomy.org/bibtex/23675bab4e3397c313e9622834a4dde5a/jfischer},
doi = {10.1088/1742-6596/60/1/063},
interhash = {b2989b00608e443f295553c2cde6259e},
intrahash = {3675bab4e3397c313e9622834a4dde5a},
journal = {J. Phys. Conf. Ser.},
keywords = {DESY acoustic, high-energy, icecube, neutrino, pole, south spats,},
pages = {292-295},
slaccitation = {%%CITATION = 00462,60,292;%%},
timestamp = {2009-03-11T17:31:24.000+0100},
title = {SPATS: An acoustic array at the South Pole},
volume = 60,
year = 2007
}