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Journal ArticleDOI

Concerning the time dependence of the decay rate of 137Cs.

Jere H. Jenkins1, Ephraim Fischbach1, D. Javorsek, R. H. Lee2, Peter A. Sturrock3 
Purdue University1, United States Air Force Academy2, Stanford University3
01 Apr 2013-Applied Radiation and Isotopes (Pergamon)-Vol. 74, pp 50-55
TL;DR: It is found that the PTB measurements of the decay rate of (137)Cs show no evidence of an annual oscillation, in agreement with the recent report by Bellotti et al., and is consistent with the finding that different nuclides have different sensitivities to whatever external influences are responsible for the observed periodic variations.
About: This article is published in Applied Radiation and Isotopes.The article was published on 2013-04-01 and is currently open access. It has received 26 citations till now. The article focuses on the topics: Nuclide.

Summary (1 min read)

Jump to: [2. Analysis of PTB measurements][3. Discussion] and [4. Conclusions]

2. Analysis of PTB measurements

  • For present purposes, the authors have found it convenient to adopt sections of 500 measurements.
  • This spectrogram exhibits a strong annual oscillation from 2003 to 2005.
  • The plot derived from 133Ba data is shown in Fig.

3. Discussion

  • The authors next review in more detail previous reports concerning the decay rate of 137Cs.
  • Thermal expansion of the lucite, which has an expansion coefficient of 7:1 10 5 cm=cm=1C (10.02, 2012), would have been the same for the two standards, and hence expansion due to temperature would not be a likely source of any seasonal variations.
  • It is well known that the output of the detector is relatively insensitive to changes in the detector bias voltage, since the voltage is high enough to prevent recombination of the electron/ion pairs generated, but too low to cause electron multiplication.
  • Notably, the decay rate of 226Ra shows strong evidence of an annual oscillation in the earlier dataset but weaker evidence for such an oscillation in the later dataset (Fig. 4).

4. Conclusions

  • The authors purpose here has been to present new data, for 133Ba and 137Cs, which were measured on the same detector system for the same time period, where one isotope (133Ba) exhibited a clear annual periodicity and the other (137Cs) did not.
  • This result, in addition to the results of decay experiments listed in Table 1, indicates that the failure to observe the annual (or other) periodicity in one isotope does not exclude that possibility in others.
  • More specifically, the results presented in Table 1 in support of time-varying nuclear decay rates cumulatively represent over 60 years of data collection, in comparison to the 0.5 years of data from Bellotti et al. (2012).
  • Clearly, a new series of experiments with a variety of nuclides and a variety of detectors would help to determine definitively whether the amplitudes and phases of annual oscillations are steady or variable and, if variable, the characteristics of the variability.

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Citations
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Journal ArticleDOI
Evidence against solar influence on nuclear decay constants

[...]

Stefaan Pommé, H. Stroh, J. Paepen, R. Van Ammel, M. Marouli, Timotheos Altzitzoglou, Mikael Hult, Karsten Kossert1, Ole Nähle1, H. Schrader1, Frédéric Juget, Claude Bailat, Youcef Nedjadi, François Bochud, T. Buchillier, C Michotte2, S Courte2, M.W. van Rooy, M.J. van Staden, J. Lubbe, B.R.S. Simpson, Aldo Fazio3, P. De Felice3, T. W. Jackson4, W.M. van Wyngaardt4, M. I. Reinhard4, J. Golya4, S. Bourke4, T. Roy5, Raphael Galea5, John Keightley6, K.M. Ferreira6, Sean Collins6, A. Ceccatelli7, Michael P. Unterweger8, Ryan P. Fitzgerald8, Denis E. Bergeron8, Leticia S. Pibida8, L. Verheyen, M. Bruggeman, Branko Vodenik9, Matjaž Korun9, V. Chisté, M.-N. Amiot 
German National Metrology Institute1, International Bureau of Weights and Measures2, ENEA3, Australian Nuclear Science and Technology Organisation4, National Research Council5, National Physical Laboratory6, International Atomic Energy Agency7, National Institute of Standards and Technology8, Jožef Stefan Institute9
10 Oct 2016-Physics Letters B
TL;DR: There is no indication of a natural impediment against sub-permille accuracy in half-life determinations, renormalisation of activity to a distant reference date, application of nuclear dating for archaeology, geo- and cosmochronology, nor in establishing the SI unit becquerel and seeking international equivalence of activity standards.

46 citations

Cites background or methods from "Concerning the time dependence of t..."

  • ...Authors of both convictions expressed the need for collecting evidence for different radionuclides measured with different detection techniques [7,11,13,18,23]....

    [...]

  • ...Evidence has been collected to demonstrate instabilities in the decay of other radionuclides [10,11] and by means of time-frequency analysis periodicity at shorter and longer term than 1 year have been claimed [11–13]....

    [...]

Journal ArticleDOI
On decay constants and orbital distance to the Sun - Part I: Alpha decay

[...]

Stefaan Pommé, H. Stroh, J. Paepen, R. Van Ammel, M. Marouli, Timotheos Altzitzoglou, Mikael Hult, Karsten Kossert1, Ole Nähle1, H. Schrader1, Frédéric Juget, Claude Bailat, Youcef Nedjadi, François Bochud, T. Buchillier, C Michotte2, S Courte2, M.W. van Rooy, M.J. van Staden, J. Lubbe, B.R.S. Simpson, Aldo Fazio3, P. De Felice3, T. W. Jackson4, W.M. van Wyngaardt4, M. I. Reinhard4, J. Golya4, S. Bourke4, T. Roy5, Raphael Galea5, John Keightley6, K.M. Ferreira6, Sean Collins6, A. Ceccatelli7, L. Verheyen, M. Bruggeman, Branko Vodenik8, Matjaž Korun8, V. Chisté, M.-N. Amiot 
German National Metrology Institute1, International Bureau of Weights and Measures2, ENEA3, Australian Nuclear Science and Technology Organisation4, National Research Council5, National Physical Laboratory6, International Atomic Energy Agency7, Jožef Stefan Institute8
01 Feb 2017-Metrologia
TL;DR: The most stable activity measurements of alpha decaying sources set an upper limit between 0.0006% and 0.006% to the amplitude of annual oscillations in the decay rate.
Abstract: Claims that proximity to the Sun causes variation of decay constants at permille level have been investigated for alpha decaying nuclides. Repeated decay rate measurements of Po-209, Ra-226, Th-228, U-230, and Am-241 sources were performed over periods of 200 d up to two decades at various nuclear metrology institutes around the globe. Residuals from the exponential decay curves were inspected for annual oscillations. Systematic deviations from a purely exponential decay curve differ in amplitude and phase from one data set to another and appear attributable to instabilities in the instrumentation and measurement conditions. The most stable activity measurements of alpha decaying sources set an upper limit between 0.0006% and 0.006% to the amplitude of annual oscillations in the decay rate. There are no apparent indications for systematic oscillations at a level of weeks or months. Oscillations in phase with Earth's orbital distance to the sun could not be observed within 10(-5)-10(-6) range precision.

41 citations

Journal ArticleDOI
On decay constants and orbital distance to the Sun—part III: beta plus and electron capture decay

[...]

Stefaan Pommé, H. Stroh, J. Paepen, R. Van Ammel, M. Marouli, Timotheos Altzitzoglou, Mikael Hult, Karsten Kossert1, Ole Nähle1, H. Schrader1, Frédéric Juget, Claude Bailat, Youcef Nedjadi, François Bochud, T. Buchillier, C Michotte2, S Courte2, M.W. van Rooy, M.J. van Staden, J. Lubbe, B.R.S. Simpson, Aldo Fazio3, P. De Felice3, T. W. Jackson4, W.M. van Wyngaardt4, M. I. Reinhard4, J. Golya4, S. Bourke4, T. Roy5, Raphael Galea5, John Keightley6, K.M. Ferreira6, Sean Collins6, A. Ceccatelli7, L. Verheyen, M. Bruggeman, Branko Vodenik8, Matjaž Korun8, V. Chisté, M.-N. Amiot 
German National Metrology Institute1, International Bureau of Weights and Measures2, ENEA3, Australian Nuclear Science and Technology Organisation4, National Research Council5, National Physical Laboratory6, International Atomic Energy Agency7, Jožef Stefan Institute8
01 Feb 2017-Metrologia
TL;DR: The hypothesis that seasonal changes in proximity to the Sun cause variation of decay constants at permille level has been tested for radionuclides disintegrating through electron capture and beta plus decay as mentioned in this paper.
Abstract: The hypothesis that seasonal changes in proximity to the Sun cause variation of decay constants at permille level has been tested for radionuclides disintegrating through electron capture and beta plus decay. Activity measurements of 22Na, 54Mn, 55Fe, 57Co, 65Zn, 82+85Sr, 90Sr, 109Cd, 124Sb, 133Ba, 152Eu, and 207Bi sources were repeated over periods from 200 d up to more than four decades at 14 laboratories across the globe. Residuals from the exponential nuclear decay curves were inspected for annual oscillations. Systematic deviations from a purely exponential decay curve differ from one data set to another and appear attributable to instabilities in the instrumentation and measurement conditions. Oscillations in phase with Earth's orbital distance to the sun could not be observed within 10−4–10−5 range precision. The most stable activity measurements of β + and EC decaying sources set an upper limit of 0.006% or less to the amplitude of annual oscillations in the decay rate. There are no apparent indications for systematic oscillations at a level of weeks or months.

35 citations

Journal ArticleDOI
Comparative study of beta-decay data for eight nuclides measured at the Physikalisch-Technische Bundesanstalt

[...]

Peter A. Sturrock1, Ephraim Fischbach2, D. Javorsek, Jere H. Jenkins3, R. H. Lee4, J. M. Nistor2, Jeffrey D. Scargle5 
Stanford University1, Purdue University2, Texas A&M University3, United States Air Force Academy4, Ames Research Center5
01 Jul 2014-Astroparticle Physics
TL;DR: In this article, the results of time-series analyses of data, kindly provided by the Physikalisch-Technische Bundesanstalt, concerning the beta-decays of Ag108, Ba133, Cs137, Eu152 and Eu154, Kr85, Ra226, and Sr90 were presented.

35 citations

Journal ArticleDOI
On decay constants and orbital distance to the Sun - Part II: Beta minus decay

[...]

Stefaan Pommé, H. Stroh, J. Paepen, R. Van Ammel, M. Marouli, Timotheos Altzitzoglou, Mikael Hult, Karsten Kossert1, Ole Nähle1, H. Schrader1, Frédéric Juget, Claude Bailat, Youcef Nedjadi, François Bochud, T. Buchillier, C Michotte2, S Courte2, M.W. van Rooy, M.J. van Staden, J. Lubbe, B.R.S. Simpson, Aldo Fazio3, P. De Felice3, T. W. Jackson4, W.M. van Wyngaardt4, M. I. Reinhard4, J. Golya4, S. Bourke4, T. Roy5, Raphael Galea5, John Keightley6, K.M. Ferreira6, Sean Collins6, A. Ceccatelli7, L. Verheyen, M. Bruggeman, Branko Vodenik8, Matjaž Korun8, V. Chisté, M.-N. Amiot 
German National Metrology Institute1, International Bureau of Weights and Measures2, ENEA3, Australian Nuclear Science and Technology Organisation4, National Research Council5, National Physical Laboratory6, International Atomic Energy Agency7, Jožef Stefan Institute8
01 Feb 2017-Metrologia
TL;DR: The most stable activity measurements of beta-decaying sources set an upper limit of 0.003-0.007% to the amplitude of annual oscillations in the decay rate as mentioned in this paper.
Abstract: Claims that proximity to the Sun causes variations of decay constants at the permille level have been investigated for beta-minus decaying nuclides. Repeated activity measurements of H-3, C-14, Co-60, Kr-85, Sr-90, Sb-124, Cs-134, Cs-137, and Eu-154 sources were performed over periods of 259 d up to 5 decades at various nuclear metrology institutes. Residuals from the exponential decay curves were inspected for annual oscillations. Systematic deviations from a purely exponential decay curve differ in amplitude and phase from one data set to another and appear attributable to instabilities in the instrumentation and measurement conditions. Oscillations in phase with Earth's orbital distance to the Sun could not be observed within 10(-4)-10(-5) range precision. The most stable activity measurements of beta-decaying sources set an upper limit of 0.003%-0.007% to the amplitude of annual oscillations in the decay rate. There are no apparent indications for systematic oscillations at a level of weeks or months.

32 citations

Cites background from "Concerning the time dependence of t..."

  • ...Parkhomov [7] and Jenkins et al [6] collected additional experimental evidence of time-dependent decay rates for β− emitters 3H, 36Cl, 56Mn, 60Co, 85Kr, 90Sr, 133Ba, 137Cs, and 239Pu as well as for β+ and electron capture decaying nuclides....

    [...]

  • ...Since it was considered less likely that α decay was affected by (mildly varying) external conditions, it was argued by Jenkins et al [6] and Parkhomov [7] that the oscillations in the 226Ra decay rates could be caused by solar influences on the β− emitters in the decay chain....

    [...]

References
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Journal ArticleDOI
Half-life measurements of long-lived radionuclides—New data analysis and systematic effects

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H. Schrader1
German National Metrology Institute1
01 Jul 2010-Applied Radiation and Isotopes
TL;DR: To solve problems of instrument instabilities (fluctuations), a new method of data analysis is applied using least-squares fits of combinations of the current ratios of the various radionuclide sources with corresponding data points measured each at nearly the same time.

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Experimental investigations of changes in the rate of beta decay of radioactive elements

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Yu. A. Baurov1, Yu. G. Sobolev2, Yu. V. Ryabov3, V. F. Kushniruk2
TsNIIMash1, Joint Institute for Nuclear Research2, Russian Academy of Sciences3
01 Nov 2007-Physics of Atomic Nuclei
TL;DR: In this article, changes in the rate of the beta decay of radioactive elements whose periods are about 24 h and 27 d are detected on the basis of long-term investigations performed with the aid of scintillation and germanium-lithium gamma detectors.
Abstract: Changes in the rate of the beta decay of radioactive elements whose periods are about 24 h and 27 d are detected on the basis of long-term investigations performed with the aid of scintillation and germanium-lithium gamma detectors. The use of the scintillation procedure yields results whose level of significance is much higher than 5%, while the procedure based on germanium—lithium detectors gives a more than 1% deviation from the average value of fluxes of gamma rays accompanying, for example, 60Co beta decay. With allowance for the rotation of the laboratory frame together with the Earth, deviations of the change in the rate of beta decay of radioactive elements single out three directions in the physical space.

44 citations

Journal ArticleDOI
Survey on the Rate Perturbation of Nuclear Decay

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H. P. Hahn, H.-J. Bobn, J. I. Kim
01 Feb 1976-Radiochimica Acta
TL;DR: In this paper, the authors exposé sous une forme résumée les informations appropriées suivantes: références, auteurs, variations mesurées ou calculées des périodes de désintégration (A λ/λ), méthodes utilisées, ainsi que quelques remarques importantes.
Abstract: Afin de présenter une vue d'ensemble sur les recherches, tant expérimentelles que théoriques, concernant les variations des périodes de désintégration nucléaire, parues jusqu'en 1975, on a exposé sous une forme résumée les informations appropriées suivantes: références, auteurs, variations mesurées ou calculées des périodes de désintégration (A λ/λ), méthodes utilisées, ainsi que quelques remarques importantes.

43 citations

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Prediction and understanding of the north‐south displacement of the heliospheric current sheet

[...]

Xuepu Zhao1, J. T. Hoeksema1, Philip H. Scherrer1
Stanford University1
01 Oct 2005-Journal of Geophysical Research
TL;DR: In this paper, the authors developed an algorithm to quantitatively estimate and understand the positive-negative displacement of the heliospheric current sheet (HCS) about Sun's magnetic dipole equator and the north-south displacement of HCS about heliographic equator.
Abstract: [1] On the basis of Wilcox Solar Observatory observations of the photospheric magnetic field and the potential field-source surface model, we compare the solid angles occupied by the positive source surface field with that of the negative. We develop an algorithm to quantitatively estimate and understand the positive-negative displacement of the heliospheric current sheet (HCS) about Sun's magnetic dipole equator and the north-south displacement of the HCS about the heliographic equator. The north-south HCS displacement predicted using the algorithm quantitatively agrees with that observed by Ulysses and Wind in 1994–1995. The predicted positive-negative and north-south HCS displacement for 362 Carrington rotations between 1976 and 2001 show that in addition to the two long southward HCS displacement intervals that are consistent with earlier observations and statistical results, there are several short north-south HCS displacement intervals in the rising and early declining solar activity phases. All the positive-negative HCS displacements about the Sun's magnetic dipole equator determined for the 25 years can be understood using the positive-negative asymmetry in the characteristics of coronal holes or open field regions between two hemispheres, such as the area, field strength, or the outward expansion factor of the coronal holes. To understand the north-south HCS displacement about the heliographic equator, the effect of the Sun's magnetic dipole tilt angle relative to the Sun's rotation axis must be taken into consideration as well.

43 citations

Journal ArticleDOI
Power spectrum analysis of BNL decay rate data

[...]

Peter A. Sturrock1, J. B. Buncher2, Ephraim Fischbach2, J. T. Gruenwald2, D. Javorsek, Jere H. Jenkins2, R. H. Lee3, J. J. Mattes2, J. R. Newport2 
Stanford University1, Purdue University2, United States Air Force Academy3
01 Sep 2010-Astroparticle Physics
TL;DR: In this paper, the running-mean of the power spectrum was investigated, and a major peak at 11.18 year−1 with power 4.08 was identified, and the significance of this peak in terms of the false-alarm probability was evaluated by means of the shuffle test and also by a new test (the "shake" test) that involves small random time displacements.

42 citations

"Concerning the time dependence of t..." refers background in this paper

  • ...om 1982-1990) and the OSURR data set (2005-2011). As we discuss elsewhere, there are other periodicities present in various decay data that we have examined, including a rotational signal at ∼32 days [16, 17], and a Rieger-like periodicity at 2.11 yr−1 [18], which can be attributed to the Sun. All of these also exhibit variable features, which should not be surprising since the Sun is known to be a very v...

    [...]

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Frequently Asked Questions (9)
Q1. What are the contributions in "Concerning the time dependence of the decay rate of 137 cs" ?

In this paper, the authors present new data for 133Ba and 137Cs, which were measured on the same detector system for the same time period, for which no annual oscillatory behavior was observed. 

This result, in addition to the results of decay experiments listed in Table 1, indicates that the failure to observe the annual ( or other ) periodicity in one isotope does not exclude that possibility in others. In light of Table 1, the authors can state in general that their studies to date suggest the following: ( a ) not all nuclides exhibit variability in decay constants ; ( b ) among nuclides that do exhibit this variability, the patterns of variability ( e. g., amplitude and phase of any oscillation ) are not all the same ; and ( c ) for nuclides that do exhibit variability, the patterns themselves may vary over time. 

The authors have also analyzed the PTB measurements in terms of ‘‘phasegrams,’’ which are analogous to spectrograms, displaying the power as a function of time and phase for an assumed annual oscillation. 

One of the significant factors leading to the selection of ionization chambers in these types of measurements is their inherent stability with respect to systematic and environmental effects. 

The rod was placed in the neutron irradiator for 5 min, activated, and then was placed in the counting bed and counted for fifteen minutes. 

The 137Cs standard set referenced above, which was used to determine system stability and calibration, consisted of nineindividual sources of 0:5 mCi each. 

Over a six month period of initial set-up and calibration, as reported in Cohn et al. (1969), the standard deviation of the 137Cs counts was 0.54%, implying good stability, and the background over the same period was 2:32 10470:56% counts/min over a 2:5 MeV spectrum window. 

Based on the care and thorough effort in the design, construction and calibration of the counting system in the Ellis experiment, aimed at reducing possible background and systematic variations, it seems probable that the observed differences in the fluctuations in the measured decay rates are intrinsic to the 56Mn and 137Cs decays themselves. 

This counting system was utilized in conjunction with a broad beam neutron irradiator (Cohn et al., 1972), for the in vivo NAA experiments described in Ellis (1990), as mentioned above.