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“…Another approach regarding fluctuations in decay processes has been developed by Shnoll et al In the 1960s they suggested that the scatter in experimental measurements (of noise processes) was not entirely random, this effect being caused by some general unknown cosmophysical (cosmogonical) factor(s) [16]. This can be seen through the comparison of the histograms obtained from those measurements in a series of experiments: whether the processes consist in the rate of a chemical reaction, the fluctuation noise of the rate of dark current measured in a photomultiplier [17], the radioactive decay or any other process generating a random signal, a sequence of histograms can be obtained from those signals by dividing the time series in short non-overlapping consecutive intervals [18]. Then, when analyzing and comparing the corresponding successive histograms, one can observe the non-randomness of the obtained measurements in a set of characteristics [19,20,21].…”

Anomalous effects on radiation detectors and capacitance measurements inside a modified Faraday cage

“…Another approach regarding fluctuations in decay processes has been developed by Shnoll et al In the 1960s they suggested that the scatter in experimental measurements (of noise processes) was not entirely random, this effect being caused by some general unknown cosmophysical (cosmogonical) factor(s) [16]. This can be seen through the comparison of the histograms obtained from those measurements in a series of experiments: whether the processes consist in the rate of a chemical reaction, the fluctuation noise of the rate of dark current measured in a photomultiplier [17], the radioactive decay or any other process generating a random signal, a sequence of histograms can be obtained from those signals by dividing the time series in short non-overlapping consecutive intervals [18]. Then, when analyzing and comparing the corresponding successive histograms, one can observe the non-randomness of the obtained measurements in a set of characteristics [19,20,21].…”

Anomalous effects on radiation detectors and capacitance measurements inside a modified Faraday cage

“…Cosmological synchronization. -Fedorov et al (2003) opine that "cosmological factors affect many fluctuations processes observed on Earth," and cite as an example correlations of the dark currents of photomultipliers located 2000 km apart (beyond the reach, we suppose, of single elements of the power grid, though just possibly not). The darker currented author hardly knows whether to be glad or sorry that the authors have not also claimed as an example the signals recorded by gravitational radiation detectors at widely separated locations.…”

Astrophysics in 2003

“Macroscopic fluctuations” of light beams as a novel tool for astrophysical studies