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Testing claims of the GW170817 binary neutron star inspiral affecting β-decay rates

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arxiv 1909.06990 v1 pith:IL32CY4Q submitted 2019-09-16 nucl-ex stat.OT

Testing claims of the GW170817 binary neutron star inspiral affecting β-decay rates

classification nucl-ex stat.OT
keywords decaytimebetagw170817intervalratesadvancedarbitrary
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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On August 17, 2017, the first gravitational wave signal from a binary neutron star inspiral (GW170817) was detected by Advanced LIGO and Advanced VIRGO. Here we present radioactive $\beta$-decay rates of three independent sources $^{44}$Ti, $^{60}$Co and $^{137}$Cs, monitored during the same period by a precision experiment designed to investigate the decay of long-lived radioactive sources. We do not find any significant correlations between decay rates in a 5\,h time interval following the GW170817 observation. This contradicts a previous claim published in this journal of an observed 2.5$\sigma$ Pearson Correlation between fluctuations in the number of observed decays from two $\beta$-decaying isotopes ($^{32}$Si and $^{36}$Cl) in the same time interval. By correcting for the choice of an arbitrary time interval, we find no evidence of a correlation above 1.5$\sigma$ confidence. In addition, we argue that such analyses on correlations in arbitrary time intervals should always correct for the so-called Look-Elsewhere effect by quoting the global significance.

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