Design and initial performance of the Askaryan Radio Array prototype EeV neutrino detector at the South Pole

We report on studies of the viability and sensitivity of the Askaryan Radio Array (ARA), a new initiative to develop a Teraton-scale ultra-high energy neutrino detector in deep, radio-transparent ice near Amundsen-Scott station at the South Pole. An initial prototype ARA detector system was installe...

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Bibliographic Details
Published inAstroparticle physics Vol. 35; no. 7; pp. 457 - 477
Main Authors Allison, P., Auffenberg, J., Bard, R., Beatty, J.J., Besson, D.Z., Böser, S., Chen, C., Chen, P., Connolly, A., Davies, J., DuVernois, M., Fox, B., Gorham, P.W., Grashorn, E.W., Hanson, K., Haugen, J., Helbing, K., Hill, B., Hoffman, K.D., Hong, E., Huang, M., Huang, M.H.A., Ishihara, A., Karle, A., Kennedy, D., Landsman, H., Liu, T.C., Macchiarulo, L., Mase, K., Meures, T., Meyhandan, R., Miki, C., Morse, R., Newcomb, M., Nichol, R.J., Ratzlaff, K., Richman, M., Ritter, L., Rott, C., Rotter, B., Sandstrom, P., Seckel, D., Touart, J., Varner, G.S., Wang, M.-Z., Weaver, C., Wendorff, A., Yoshida, S., Young, R.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2012
Subjects
Neutrinos
Radio detection
Antarctica, South Pole
Radio detection
Neutrinos
Online AccessGet full text
ISSN0927-6505
1873-2852
DOI10.1016/j.astropartphys.2011.11.010

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Abstract We report on studies of the viability and sensitivity of the Askaryan Radio Array (ARA), a new initiative to develop a Teraton-scale ultra-high energy neutrino detector in deep, radio-transparent ice near Amundsen-Scott station at the South Pole. An initial prototype ARA detector system was installed in January 2011, and has been operating continuously since then. We describe measurements of the background radio noise levels, the radio clarity of the ice, and the estimated sensitivity of the planned ARA array given these results, based on the first five months of operation. Anthropogenic radio interference in the vicinity of the South Pole currently leads to a few-percent loss of data, but no overall effect on the background noise levels, which are dominated by the thermal noise floor of the cold polar ice, and galactic noise at lower frequencies. We have also successfully detected signals originating from a 2.5km deep impulse generator at a distance of over 3 km from our prototype detector, confirming prior estimates of kilometer-scale attenuation lengths for cold polar ice. These are also the first such measurements for propagation over such large slant distances in ice. Based on these data, ARA-37, the ∼200km2 array now in its initial construction phase, will achieve the highest sensitivity of any planned or existing neutrino detector in the 1016–1019eV energy range.
AbstractList We report on studies of the viability and sensitivity of the Askaryan Radio Array (ARA), a new initiative to develop a Teraton-scale ultra-high energy neutrino detector in deep, radio-transparent ice near Amundsen-Scott station at the South Pole. An initial prototype ARA detector system was installed in January 2011, and has been operating continuously since then. We describe measurements of the background radio noise levels, the radio clarity of the ice, and the estimated sensitivity of the planned ARA array given these results, based on the first five months of operation. Anthropogenic radio interference in the vicinity of the South Pole currently leads to a few-percent loss of data, but no overall effect on the background noise levels, which are dominated by the thermal noise floor of the cold polar ice, and galactic noise at lower frequencies. We have also successfully detected signals originating from a 2.5km deep impulse generator at a distance of over 3 km from our prototype detector, confirming prior estimates of kilometer-scale attenuation lengths for cold polar ice. These are also the first such measurements for propagation over such large slant distances in ice. Based on these data, ARA-37, the ∼200km2 array now in its initial construction phase, will achieve the highest sensitivity of any planned or existing neutrino detector in the 1016–1019eV energy range.
We report on studies of the viability and sensitivity of the Askaryan Radio Array (ARA), a new initiative to develop a Teraton-scale ultra-high energy neutrino detector in deep, radio-transparent ice near Amundsen-Scott station at the South Pole. An initial prototype ARA detector system was installed in January 2011, and has been operating continuously since then. We describe measurements of the background radio noise levels, the radio clarity of the ice, and the estimated sensitivity of the planned ARA array given these results, based on the first five months of operation. Anthropogenic radio interference in the vicinity of the South Pole currently leads to a few-percent loss of data, but no overall effect on the background noise levels, which are dominated by the thermal noise floor of the cold polar ice, and galactic noise at lower frequencies. We have also successfully detected signals originating from a 2.5 km deep impulse generator at a distance of over 3 km from our prototype detector, confirming prior estimates of kilometer-scale attenuation lengths for cold polar ice. These are also the first such measurements for propagation over such large slant distances in ice. Based on these data, ARA-37, the similar to 200 km2 array now in its initial construction phase, will achieve the highest sensitivity of any planned or existing neutrino detector in the 1016-1019 eV energy range.
Author Hong, E.
Rott, C.
Bard, R.
Macchiarulo, L.
Young, R.
Hill, B.
Allison, P.
Connolly, A.
Seckel, D.
DuVernois, M.
Huang, M.H.A.
Helbing, K.
Varner, G.S.
Newcomb, M.
Ratzlaff, K.
Chen, P.
Nichol, R.J.
Gorham, P.W.
Böser, S.
Davies, J.
Fox, B.
Ishihara, A.
Miki, C.
Kennedy, D.
Wendorff, A.
Auffenberg, J.
Morse, R.
Richman, M.
Hoffman, K.D.
Weaver, C.
Huang, M.
Meures, T.
Meyhandan, R.
Besson, D.Z.
Chen, C.
Grashorn, E.W.
Karle, A.
Hanson, K.
Wang, M.-Z.
Beatty, J.J.
Mase, K.
Landsman, H.
Rotter, B.
Touart, J.
Haugen, J.
Liu, T.C.
Sandstrom, P.
Yoshida, S.
Ritter, L.
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  organization: Department of Physics and the Center for Cosmology and Astro-Particle Physics, The Ohio State University, 191 West Woodruff Avenue, Columbus, OH 43210, USA
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  organization: Dept. of Physics, Univ. Libre de Bruxelles, Belgium
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Snippet We report on studies of the viability and sensitivity of the Askaryan Radio Array (ARA), a new initiative to develop a Teraton-scale ultra-high energy neutrino...
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SubjectTerms Neutrinos
Radio detection
Title Design and initial performance of the Askaryan Radio Array prototype EeV neutrino detector at the South Pole
URI https://dx.doi.org/10.1016/j.astropartphys.2011.11.010
https://www.proquest.com/docview/923195047
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