Tunneling through nonstationary barriers and Euclidean resonance
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abstract
The application of the phenomenon of Euclidean resonance to disintegration of atoms and molecules through tunnel barriers formed by applied constant and time-dependent electric fields was analyzed. The two different channels for such integration include, electronic and ionic. With the ionization of a molecule into an electron and a positive ion, the electronic mechanism was associated. It was shown that the required frequencies are in a wide range between 100 MHz and the infrared.
Chemical bonds; Coherent light; Dissociation; Electric field effects; Frequencies; Ionization; Isotopes; Perturbation techniques; Photons; Probability; Resonance; Euclidean distance; Nonstationary barriers; Quantum tunneling; Radio frequency (RF) waves; Quantum theory