Neutrino-Flux Variability, Nuclear-Decay Variability, and Their Apparent Relationship

Sturrock, P. A.

doi:10.1007/s11214-022-00878-3

Cited by 10 publications

(7 citation statements)

References 59 publications

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“…In [8], long-term measurements of the natural gammabackground were carried out and a search was made for correlations of the received signals with some geophysical factors. P. A. Sturrock [9] reviewed the experiments performed in various laboratories to search for common peculiarities (periods) in signals, with the aim of summarizing the existing results from the standpoint of the existence of the possibility that cosmic neutrinos' influence on radioactive decay, finding correlations with processes on the Sun, etc. Our work fully fits with such a general physical problem, and our results are very close to [9].…”

Section: Discussionmentioning

confidence: 99%

Observation of periodic fluctuations in the dose rate of gamma-radiation in the Chornobyl exclusion zone

Skorbun,

Sploshnoi,

Zelenskyi

2023

Nucl. Phys. At. Energy

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Section: Discussionmentioning

confidence: 99%

Observation of periodic fluctuations in the dose rate of gamma-radiation in the Chornobyl exclusion zone

Skorbun,

Sploshnoi,

Zelenskyi

2023

Nucl. Phys. At. Energy

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“…The proposed pseudo first order quark and antiquark pair exchange reaction may explain why neutrons in atoms are stable and do not decay to protons if the approach of the QCD gas ud u d   exotic meson to the neutron's quarks is blocked (Figure 1). Equation (7) completes the description of the proposed pseudo-first order β decay and is also interesting since the exotic charged pion ( )…”

mentioning

confidence: 84%

“…The second issue with the β decay equations is that neutrons of stable atoms do not decay according to Equation (1) hinting that the β decay is not a simple first order kinetic reaction. The third issue is the observed periodic time variability of the β decay rates [7].…”

mentioning

confidence: 99%

The Quantum Chromodynamics Gas Density Drop and the General Theory of Relativity Ether

Rom¹

2023

JHEPGC

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β decay is one of the most fundamental and thoroughly studied nuclear decay. Surprisingly, the β decay rates were found to have a periodic time variability [1]. However, others argued that there is no evidence for such cyclic deviation from the exponential first order kinetics decay law [2]. Here we propose that the β decay is a pseudo-first order exchange reaction triggered by uddu   exotic mesons and propose a QCD gas theory. In analogy to the atmospheric gas density, the proposed QCD gas density drops with elevation from the sun. Accordingly, we propose that the β decay rate periodic variability is due to the pseudo-first order exchange reaction kinetics and the QCD gas atmospheric density drop. The proposed QCD gas may be a possible candidate for Einstein's general theory of relativity ether [3]. Our main results are the derived formulas for calculating the effective mass of the QCD gas and the cosmology perfect fluid equation of state dimensionless parameter, based on the measured ratio of the β decay rates at the earth trajectory aphelion and perihelion dates.

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“…For more than two decades, Sturrock and collaborators have argued that the 8 B solar neutrino flux seen in Super-Kamiokande-I from 1996-2001 [1] contains a sinusoidal modulation at a frequency of 9.43/year, which corresponds to a period of around 38 days (See Ref. [2] and references therein). They asserted that this peak is due to the synodic rotation of the solar core, for which the sidereal rotation rate is around 10.43/year [3,4].…”

Section: Introductionmentioning

confidence: 99%

Generalized Lomb–Scargle analysis of 22 years of super-Kamiokande solar $$^8$$B neutrino data

Pasumarti,

Desai

2024

Eur. Phys. J. C

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We apply the generalized Lomb–Scargle periodogram to 22 years data of solar $$^{8}$$ 8 B neutrino fluxes detected by Super-Kamiokande. The primary motivation of this work was to check if the sinusoidal modulation at a frequency of 9.43/year (with a period of 38 days), which we had found to be marginally significant with the first 5 years of Super-K data, persists, with the accumulated data. We use four different metrics for the calculation of significance of any peaks in the Lomb–Scargle periodogram, which could be indicative of periodicities. We do not find any evidence for periodicity at the aforementioned frequency or any other frequency with the updated data. Therefore, the observed peak at 9.43/year with the first 5 years of Super-Kamiokande data was only a statistical fluctuation and its significance is negligible with the updated data.

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Neutrino-Flux Variability, Nuclear-Decay Variability, and Their Apparent Relationship

Cited by 10 publications

References 59 publications

Observation of periodic fluctuations in the dose rate of gamma-radiation in the Chornobyl exclusion zone

Observation of periodic fluctuations in the dose rate of gamma-radiation in the Chornobyl exclusion zone

The Quantum Chromodynamics Gas Density Drop and the General Theory of Relativity Ether

Generalized Lomb–Scargle analysis of 22 years of super-Kamiokande solar $$^8$$B neutrino data

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