Abstract
A simple universal physical mechanism hidden for more than half a century is unexpectedly discovered from a calculation of low excitation antihydrogen. For ease of reference, this mechanism is named Gailitis resonance. We demonstrate, in great detail, that Gailitis resonances are capable of explaining p+7Li low energy nuclear fusion, d-d fusion on a Pd lattice and the initial transient fusion peak in muon catalyzed fusion. Hopefully, these examples will help to identify Gailitis resonances in other systems.
Highlights
A simple universal physical mechanism hidden for more than half a century is unexpectedly discovered from a calculation of low excitation antihydrogen
In Reference [7], using the properties of Gailitis resonance and the experimental information that In Reference [7], using the properties of Gailitis resonance and the experimental information that the initial muonic atom tμ was formed at an excited state, n = 14, an estimation found the lifetime of the the initial muonic atom tμ was formed at an excited state, n = 14, an estimation found the lifetime of Gailitis resonance is of the same order of magnitude as the radiative decay lifetime
This is consistent the Gailitis resonance is of the same order of magnitude as the radiative decay lifetime
Summary
The the third resonance cut1,in half.aIn spitelarger of such defects, these graphs provide enough information cutoff radius used in [3,4] is 1000 Bohr radius for the following S-state and with six open channel to reveal real physics. For Apparently, the largest possible run with ymax ≈ 1000a0 used in our calculations is too short, the the first time, we demonstrate that the Faddeev amplitudes contain all the physics that can be revealed third resonance get cut in half In spite of such defects, these graphs provide enough information to with much less effort.
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