Effect of solar flares on 54Mn and 57Co radioactive decay constants performance

This study explores the impact of solar flare events on radioactive materials, focusing in particular on the thorium decay chain. Previous research has indicated that gamma emitters are affected by solar flares, resulting in count-rate dips. In this study, we present, for the first time, concurrent gamma and beta count-rate measurements from a thorium radioactive source, revealing multiple dips in the count rate. Based on a consideration of the temporal relationship between beta and gamma emissions, we propose that the response to solar events originates primarily from beta emissions. To investigate this phenomenon further, we employ plastic scintillator beta detectors, enabling the examination of various radioactive sources and the study of neutrino interactions and their impact on decay rates. This experimental approach offers an opportunity to expand our knowledge of particle interactions and provides insights into the interplay between solar flares, neutrino flux, and the behavior of radioactive materials.

The impact of strong solar flares on thorium beta radiation count-rate

Peleg,

Orion

2023

Risk assessment of flying through a zone with increased radioactive radiation

Ivkovic,

Ilic,

Radovanovic

et al. 2023

This research deals with the assessment of the risk to which air traffic is exposed in zones of increased level of radioactive radiation. Natural disasters and war conflicts, which take place around nuclear power plants and the radioactive area (Chernobyl), create fear that large amounts of radioactive material may be released into the atmosphere. The paper analyzed the effects of: the efficiency of the HEPA filter in relation to the size of the radioactive dust particles, radioactivity on the aircraft instrumentation, radioactivity on the engine and the contribution of the engine in the spread of radioactivity to the crew in the aircraft. An assessment of the risk of exposure to radioactive radiation in the aircraft was put in perspective, depending on the type of aircraft and the dose of radiation.

Decay rate changes in radioactive gamma emission as affected by 18 MeV proton cyclotron

Walg,

Feldman,

Orion

2024

Previous efforts to investigate changes in the decay constants of radioactive nuclides discovered that solar flares can temporarily alter radioactive decay rates. Thus, discerning whether external factors affect radioactive decay rates is vital for understanding nuclear processes. This study sought to explore the effect of neutrinos on radioactive nuclei by constructing a gamma radiation detection system that employs a radioactive source in front of a neutrino emission system. Responding to cyclotron operations, each of the four detection systems registered gamma count rate decreases. The results of this study confirm that rises in neutrino flux affected the decay rates of the examined radioactive nuclides. Here we provide significant evidence that neutrinos affect the radioactive decay process. Neutrino detection is challenging due to the minuscule absorption in a stable nucleus. However, the study found a greater probability of radionuclides interaction with the neutrino.