We address to the Pure Bound Field Theory (PBFT) we developed earlier (e.g., Kholmetskii A.L. et al. Eur. Phys. J. Plus 126, 33 (2011), Eur. Phys. J. Plus 126, 35 (2011)), which explicitly takes into account the non-radiating nature of electromagnetic field of quantum bound particles in stationary states, and which allows eliminating the available subtle deviations between experimental and theoretical data in precise physics of light hydrogen-like atoms. In the present paper we show that the specific corrections of PBFT, being introduced into the basic equations of atomic physics, allow two different solutions for stationary energy states of electrically bound system “proton plus electron”. One of them corresponds to the ground state of usual hydrogen atom with the averaged radius near the Bohr radius rB, whereas another stationary state is characterized by the much smaller averaged radius of about 2a^2rB=5 fm (where a is the fine structure constant), and the binding energy about –255 keV. We name this bound system as the “neutronic hydrogen” and discuss possible implications of our results. In particular, we show that the interaction of neutronic hydrogen with matter can explain numerous puzzling facts of low temperature nuclear synthesis.
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[v1] 2018-01-19 05:17:07
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