Add to ORKGWe calculate the electron screening effect in low energy nuclear fusion reactions by taking non-adiabaticity of the tunnleing process into account. In order to investigate deviations from the adiabatic limit, we use the dynamical norm method, which has recently been developed by the present authors. Using d+D reaction as an example, we show that the screening energy never exceeds those estimated in the adiabatic approximation. Our calculations indicate that the non-adiabatic effect is important both in classically allowed and classically forbidden processes
We perform semi-classical molecular dynamics simulations of screening by bound electrons in low ener...
The recent observation of a large electron screening effect in the d(d, p)t reaction using a deutera...
The interplay between nuclear and electromagnetic forces in astrophysical relevant reactions at very...
Using a semiclassical mean field theory, we show that the screening potential exhibits a characteris...
Using a semiclassical mean field theory, we show that the screening potential exhibits a characteris...
Recent laboratory experiments have measured fusion cross sections at center-of-mass energies low eno...
We study the combined effects of vacuum polarization, relativity, Bremsstrahlung, and atomic polariz...
Two models are presented for the description of the electron screening effects that appear in labora...
We reanalyze the low-energy ^3He(d, p)^4He cross section measurements of Engstler et al. using recen...
We estimate the bare astrophysical S-factor($S_b(E)$) of reactions in PP-chains, through a polynomia...
We study the effect of screening by bound electrons in low energy nuclear reactions. We use molecula...
We study the effect of screening by bound electrons in low energy nuclear reactions. We use molecula...
Understanding the electron screening effect in the laboratory is critical for a correct interpretat...
Electron screening in an important effect that cannot be neglected in nuclear astrophysics, since it...
We reanalyze the low-energy ^3He(d,p)^4He cross section measurements of Engstler {\it et al.} using ...
We perform semi-classical molecular dynamics simulations of screening by bound electrons in low ener...
The recent observation of a large electron screening effect in the d(d, p)t reaction using a deutera...
The interplay between nuclear and electromagnetic forces in astrophysical relevant reactions at very...
Using a semiclassical mean field theory, we show that the screening potential exhibits a characteris...
Using a semiclassical mean field theory, we show that the screening potential exhibits a characteris...
Recent laboratory experiments have measured fusion cross sections at center-of-mass energies low eno...
We study the combined effects of vacuum polarization, relativity, Bremsstrahlung, and atomic polariz...
Two models are presented for the description of the electron screening effects that appear in labora...
We reanalyze the low-energy ^3He(d, p)^4He cross section measurements of Engstler et al. using recen...
We estimate the bare astrophysical S-factor($S_b(E)$) of reactions in PP-chains, through a polynomia...
We study the effect of screening by bound electrons in low energy nuclear reactions. We use molecula...
We study the effect of screening by bound electrons in low energy nuclear reactions. We use molecula...
Understanding the electron screening effect in the laboratory is critical for a correct interpretat...
Electron screening in an important effect that cannot be neglected in nuclear astrophysics, since it...
We reanalyze the low-energy ^3He(d,p)^4He cross section measurements of Engstler {\it et al.} using ...
We perform semi-classical molecular dynamics simulations of screening by bound electrons in low ener...
The recent observation of a large electron screening effect in the d(d, p)t reaction using a deutera...
The interplay between nuclear and electromagnetic forces in astrophysical relevant reactions at very...