Fully automated chromatographic purification of Sr and Ca for isotopic analysis

The Russian-American experiment SAGE began to measure the solar neutrino capture rate with a target of gallium metal in December 1989. Measurements have continued with only a few brief interruptions since that time. In this article we present the experimental improvements in SAGE since its last published data summary in December 2001. Assuming the solar neutrino production rate was constant during the period of data collection, combined analysis of 168 extractions through December 2007 gives a capture rate of solar neutrinos with energy more than 233 keV of 65.4 +3.1 −3.0 (stat) +2.6 −2.8 (syst) SNU. The weighted average of the results of all three Ga solar neutrino experiments, SAGE, Gallex, and GNO, is now 66.1±3.1 SNU, where statistical and systematic uncertainties have been combined in quadrature. During the recent period of data collection a new test of SAGE was made with a reactor-produced 37 Ar neutrino source. The ratio of observed to calculated rates in this experiment, combined with the measured rates in the three prior 51 Cr neutrino-source experiments with Ga, is 0.87 ± 0.05. A probable explanation for this low result is that the cross section for neutrino capture by the two lowest-lying excited states in 71 Ge has been overestimated. If we assume these cross sections are zero, then the standard solar model including neutrino oscillations predicts a total capture rate in Ga in the range of 63 SNU to 66 SNU with an uncertainty of about 4%, in good agreement with experiment. We derive the current value of the neutrino flux produced in the Sun by the proton-proton fusion reaction to be φ pp = (6.0 ± 0.8) × 10 10 /(cm 2 s), which agrees well with the pp flux predicted by the standard solar model. Finally, we make several tests and show that the data are consistent with the assumption that the solar neutrino production rate is constant in time.

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Solar neutrino flux measurements by the Soviet-American gallium experiment (SAGE) for half the 22-year solar cycle

Abdurashitov

Veretenkin

Vermul

et al. 2002

J. Exp. Theor. Phys.

414

197

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Measurement of the response of a Ga solar neutrino experiment to neutrinos from aAr37source

Abdurashitov¹,

Гаврин²,

Girin³

et al. 2006

Phys. Rev. C

306

191

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Measurement of the solar neutrino capture rate with gallium metal

Abdurashitov¹,

Гаврин²,

Girin³

et al. 1999

Phys. Rev. C

505

182

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Measurement of the response of a gallium metal solar neutrino experiment to neutrinos from a51Crsource

Abdurashitov¹,

Гаврин²,

Girin³

et al. 1999

Phys. Rev. C

271

165

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The neutrino capture rate measured by the Russian-American Gallium Experiment is well below that predicted by solar models. To check the response of this experiment to low-energy neutrinos, a 517 kCi source of 51 Cr was produced by irradiating 512.7 g of 92.4%-enriched 50 Cr in a high-flux fast neutron reactor. This source, which mainly emits monoenergetic 747-keV neutrinos, was placed at the center of a 13.1 tonne target of liquid gallium and the cross section for the production of 71 Ge by the inverse beta decay reaction 71 Ga(νe, e − ) 71 Ge was measured to be [5.55 ± 0.60 (stat) ± 0.32 (syst)] × 10 −45 cm 2 . The ratio of this cross section to the theoretical cross section of Bahcall for this reaction is 0.95 ± 0.12 (expt) +0.035 −0.027 (theor) and to the cross section of Haxton is 0.87 ± 0.11 (expt) ± 0.09 (theor). This good agreement between prediction and observation implies that the overall experimental efficiency is correctly determined and provides considerable evidence for the reliability of the solar neutrino measurement. PACS number(s): 26.65.+t, 13.15.+g, 95.85.Ry

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E. P. Veretenkin

Measurement of the solar neutrino capture rate with gallium metal. III. Results for the 2002–2007 data-taking period

Solar neutrino flux measurements by the Soviet-American gallium experiment (SAGE) for half the 22-year solar cycle

Measurement of the response of a Ga solar neutrino experiment to neutrinos from aAr37source

Measurement of the solar neutrino capture rate with gallium metal

Measurement of the response of a gallium metal solar neutrino experiment to neutrinos from a51Crsource

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