Abstract
The probability of a pycnonuclear reaction in the synthesis of light elements depending on the mass density of the material and the magnetic field strength for a specified chemical composition of the medium is calculated. It is shown that magnetic fields with H≳1014 G considerably reduce the probability of pycnonuclear reactions for light elements. The threshold values of the density for which specified nuclei disappear from the composition of the magnetized material after a time of 107-109 years forming heavier nuclei as a result of pycnonuclear reactions are estimated. It is also shown that intense magnetic fields shift the threshold at which the light nuclei disappear towards higher densities.
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