KamLAND Results

I. Shimizu

doi:10.1016/j.nuclphysbps.2009.02.020

KamLAND Results

I. Shimizu

Research Center for Neutrino Science (RCNS)

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

KamLAND, designed to explore the neutrino oscillation of over(ν, -)_e's from reactors, showed the improved results with enhanced statistics of 2881 ton-yr data set, added data lowering the energy threshold, and suppressed systematic uncertainties. As a result, a scaled reactor spectrum with no distortion is excluded at more than 5σ, and the best-fit of oscillation parameters gives Δ m₂₁² = 7.58_{- 0.20}^{+ 0.21} × 10^{- 5} eV² and tan² θ₁₂ = 0.56_{- 0.09}^{+ 0.14}. The improved analysis measured the mass-square difference of neutrino oscillation parameters at a precision of 2.8%, and also observed two cycles of oscillatory shape expected from neutrino oscillation. The geo neutrino flux, measured at the same time, is consistent with expectation based on an earth model within the statistical uncertainty.

Original language	English
Pages (from-to)	84-89
Number of pages	6
Journal	Nuclear Physics B - Proceedings Supplements
Volume	188
Issue number	C
DOIs	https://doi.org/10.1016/j.nuclphysbps.2009.02.020
Publication status	Published - 2009 Mar

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10.1016/j.nuclphysbps.2009.02.020

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title = "KamLAND Results",

abstract = "KamLAND, designed to explore the neutrino oscillation of over(ν, -)e's from reactors, showed the improved results with enhanced statistics of 2881 ton-yr data set, added data lowering the energy threshold, and suppressed systematic uncertainties. As a result, a scaled reactor spectrum with no distortion is excluded at more than 5σ, and the best-fit of oscillation parameters gives Δ m212 = 7.58- 0.20+ 0.21 × 10- 5 eV2 and tan2 θ12 = 0.56- 0.09+ 0.14. The improved analysis measured the mass-square difference of neutrino oscillation parameters at a precision of 2.8%, and also observed two cycles of oscillatory shape expected from neutrino oscillation. The geo neutrino flux, measured at the same time, is consistent with expectation based on an earth model within the statistical uncertainty.",

author = "I. Shimizu",

year = "2009",

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doi = "10.1016/j.nuclphysbps.2009.02.020",

language = "English",

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pages = "84--89",

journal = "Nuclear Physics B - Proceedings Supplements",

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AB - KamLAND, designed to explore the neutrino oscillation of over(ν, -)e's from reactors, showed the improved results with enhanced statistics of 2881 ton-yr data set, added data lowering the energy threshold, and suppressed systematic uncertainties. As a result, a scaled reactor spectrum with no distortion is excluded at more than 5σ, and the best-fit of oscillation parameters gives Δ m212 = 7.58- 0.20+ 0.21 × 10- 5 eV2 and tan2 θ12 = 0.56- 0.09+ 0.14. The improved analysis measured the mass-square difference of neutrino oscillation parameters at a precision of 2.8%, and also observed two cycles of oscillatory shape expected from neutrino oscillation. The geo neutrino flux, measured at the same time, is consistent with expectation based on an earth model within the statistical uncertainty.

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JO - Nuclear Physics B - Proceedings Supplements

JF - Nuclear Physics B - Proceedings Supplements

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KamLAND Results

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