Recently we showed that the nuclear transmutation rates are largely overestimated in the Widom–Larsen theory of the so-called ‘Low Energy Nuclear Reactions’. Here we show that unbound plasma electrons are even less likely to initiate nuclear transmutations
Nuclear reaction rates for astrophysics applications are traditionally determined on the basis of Ha...
We present experimental and theoretical results for rate of decay of the (3/2)+ isomeric state in $^...
Rate équations are investigated numerically. They evidence the importance at the beginning of ioniza...
Recently we showed that the nuclear transmutation rates are largely overestimated in the Widom-Larse...
The field of low temperature nuclear reactions has made slow but steady progress. Evidence has accum...
Nuclear excitation by electron transition (NEET) is predicted to be the dominant excitation process ...
- The previous nucleus model in the 1920s was called internal electron theory that the atomic nucleu...
A theoretical interpretation is presented for anomalous enhancements of nuclear reac...
Following Rutherford’s 1920 historical hypothesis of the neutron as a compressed hydrogen atom in th...
After an introduction to the controversial problem of Low Energy Nuclear Reactions (LENR) catalyzed ...
We show that while corrections to spectroscopically measured Franck-Condon energies, arising from mo...
One promising candidate for the first detection of nuclear excitation in plasma is the 463-keV, 20.2...
Context. Nuclear reaction rates of astrophysical applications are traditionally determined on the ba...
7 pagesInternational audienceBased on time-dependent Hartree-Fock theory, a new inverse quasifission...
AbstractThe neutrons generated in fusion plasmas interact with materials via nuclear reactions. The ...
Nuclear reaction rates for astrophysics applications are traditionally determined on the basis of Ha...
We present experimental and theoretical results for rate of decay of the (3/2)+ isomeric state in $^...
Rate équations are investigated numerically. They evidence the importance at the beginning of ioniza...
Recently we showed that the nuclear transmutation rates are largely overestimated in the Widom-Larse...
The field of low temperature nuclear reactions has made slow but steady progress. Evidence has accum...
Nuclear excitation by electron transition (NEET) is predicted to be the dominant excitation process ...
- The previous nucleus model in the 1920s was called internal electron theory that the atomic nucleu...
A theoretical interpretation is presented for anomalous enhancements of nuclear reac...
Following Rutherford’s 1920 historical hypothesis of the neutron as a compressed hydrogen atom in th...
After an introduction to the controversial problem of Low Energy Nuclear Reactions (LENR) catalyzed ...
We show that while corrections to spectroscopically measured Franck-Condon energies, arising from mo...
One promising candidate for the first detection of nuclear excitation in plasma is the 463-keV, 20.2...
Context. Nuclear reaction rates of astrophysical applications are traditionally determined on the ba...
7 pagesInternational audienceBased on time-dependent Hartree-Fock theory, a new inverse quasifission...
AbstractThe neutrons generated in fusion plasmas interact with materials via nuclear reactions. The ...
Nuclear reaction rates for astrophysics applications are traditionally determined on the basis of Ha...
We present experimental and theoretical results for rate of decay of the (3/2)+ isomeric state in $^...
Rate équations are investigated numerically. They evidence the importance at the beginning of ioniza...
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