Vacuum oscillations and excess of high energy solar neutrino events observed in Superkamiokande

Berezinsky, V.; Fiorentini, G.; Lissia, M.

doi:10.1016/s0927-6505(99)00090-0

Cited by 12 publications

(7 citation statements)

References 35 publications

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“…The finding that the solar data are consistent with a production rate constant in time does not invalidate other hypotheses that might give similar or even better time dependent (linear, periodic, or other) fits. There have been analyses of the GALLEX data in terms of possible (anti/)correlation with the seasonal Sun -Earth distance variation and caused by neutrino oscillations [14,15]. Therefore, we have grouped the results for the 84 solar neutrino runs of GNO I and Gallex in 6 about equally populated bins of similar heliocentric distance, d. Figure 4 is the plot of the joint results for each of these bins in SNU vs. < d > in A.U.…”

Section: Possible Time Variations Of the Incident Neutrino Fluxesmentioning

confidence: 99%

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GNO solar neutrino observations: results for GNO I

Altmann¹,

Balata²,

Belli³

et al. 2000

Physics Letters B

474

224

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We report the first GNO solar neutrino results for the measuring period GNO I, solar exposure time May 20, 1998 till January 12, 2000. In the present analysis, counting results for solar runs SR1–SR19 were used till April 4, 2000. With counting completed for all but the last 3 runs (SR17–SR19), the GNO I result is [65.8 ± 10.29.6 (stat.) ± 3.43.6 (syst.)] SNU (1σ) or [65.8 ± 10.710.2 (incl. syst.)] SNU (1σ) with errors combined. This may be compared to the result for Gallex (I–IV), which is [77.5 ± 7.67.8 (incl. syst.)] SNU (1σ). A combined result from both GNO I and Gallex (I–IV) together is [74.1 ± 6.76.8 (incl. syst.)] SNU (1σ)

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Section: Possible Time Variations Of the Incident Neutrino Fluxesmentioning

confidence: 99%

“…(iii) Among the handful of neutrino mass and mixing parameter sets that are indicated to be allowed by the available experimental evidence, at least two can be singled out by time variations of the observed neutrino signals, particularly in GNO (seasonal and even day/night variation) [14][15][16].…”

Section: Introductionmentioning

confidence: 99%

GNO solar neutrino observations: results for GNO I

Altmann¹,

Balata²,

Belli³

et al. 2000

Physics Letters B

474

224

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“…The GALLEX recordings (till 1997) established both the presence of pp-neutrinos [4] and a significant deficit (≈ 40 %) in the sub-MeV neutrino induced rate [5][6][7]. At that time, this was the strongest indication for neutrino transformations on the way between the solar core and the Earth, implying nonzero neutrino mass and non-standard physics [8][9][10][11]. The subsequent GNO observations have improved the quality of the data, added important restrictions on the presence of possible time variations, and substantially reduced the total error on the charged current reaction rate for pp-neutrinos as measured by the inverse EC reaction on gallium.…”

Section: Introductionmentioning

confidence: 95%

Complete results for five years of GNO solar neutrino observations

et al. 2005

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We report the complete GNO solar neutrino results for the measuring periods GNO III, GNO II, and GNO I. The result for GNO III (last 15 solar runs) is View the MathML source[54.3−9.3+9.9(stat)±2.3(syst)]SNU(1σ)(1σ) or View the MathML source[54.3−9.6+10.2(incl. syst)] SNU (1σ ) with errors combined. The GNO experiment is now terminated after altogether 58 solar exposure runs that were performed between 20 May 1998 and 9 April 2003. The combined result for GNO (I + II + III) is View the MathML source[62.9−5.3+5.5(stat)±2.5(syst)] SNU (1σ ) or View the MathML source[62.9−5.9+6.0] SNU (1σ ) with errors combined in quadrature. Overall, gallium based solar observations at LNGS (first in GALLEX, later in GNO) lasted from 14 May 1991 through 9 April 2003. The joint result from 123 runs in GNO and GALLEX is [69.3±5.5(incl. syst)] SNU[69.3±5.5(incl. syst)] SNU (1σ). The distribution of the individual run results is consistent with the hypothesis of a neutrino flux that is constant in time. Implications from the data in particle- and astrophysics are reiterated

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“…Both effects are characterized by a one year period. Some indications of a seasonal variation in the neutrino flux from the Sun has already been seen in the GALLEX and Homestake experiments [28]. In Ref.…”

Section: Neutrino Event Rate and Energy Spectrummentioning

confidence: 66%

VEP Oscillation Solutions to the Solar Neutrino Problem

D’Olivo¹

2000

Proceedings of Third Latin American Symposium on High Energy Physics — PoS(silafae-III)

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We study the solar neutrino problem within the framework of a parametrized post-Newtonian formulation for the gravitational interaction of the neutrinos, which incorporates a violation to the equivalence principle (VEP). Using the current data on the rates and the energy spectrum we find two possible oscillation solutions, both for a large mixing angle. One of them involves the MSW effect in matter and the other corresponds to vacuum oscillations. An interesting characteristic of this mechanism is that it predicts a semi-annual variation of the neutrino flux. Our analysis provides new constraints for some VEP parameters.

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Vacuum oscillations and excess of high energy solar neutrino events observed in Superkamiokande

Cited by 12 publications

References 35 publications

GNO solar neutrino observations: results for GNO I

GNO solar neutrino observations: results for GNO I

Complete results for five years of GNO solar neutrino observations

VEP Oscillation Solutions to the Solar Neutrino Problem

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