Systematic limits on sin^2{2theta_{13}} in neutrino oscillation experiments with multi-reactors

Details Systematic limits on sin^2{2theta_{13}} in neutrino oscillation experiments with multi-reactors Systematic limits on sin^2{2theta_{13}} in neutrino oscillation experiments with multi-reactors

2004-09-09

arxiv.org/abs/hep-ph/0409109v1

Phys.Rev. D73 (2006) 053008

Physics

High Energy Physics

High Energy Physics - Phenomenology

26 pages, 10 eps-files, revtex4

Scientific paper

Sensitivities to sin^2{2theta_{13}} without statistical errors (``systematic limit'') are investigated in neutrino oscillation experiments with multiple reactors. Using an analytical approach, we show that the systematic limit on sin^2{2theta_{13}} is dominated by the uncorrelated systematic error sigma_u of the detector. Even in an experiment with multi-detectors and multi-reactors, it turns out that most of the systematic errors including the one due to the nature of multiple sources is canceled as in the case with a single reactor plus two detectors, if the near detectors are placed suitably. The case of the KASKA plan (7 reactors and 3 detectors) is investigated in detail, and it is explicitly shown that it does not suffer from the extra uncertainty due to multiple reactors.

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