Add to ORKGyesAn analysis is presented of the Coulomb excitation of low lying nuclear levels by the electrons produced by strong field ionization of atoms. It is shown that the resulting short lived radioactivity can be as high as on the order of 10³Ci for certain isotopes excited by using modern laser systems. Relativistic effects are demonstrated that substantially increase radioactivity as compared tothat predicted by nonrelativistic theory resultsBelgorod State Universit
Optical spectroscopy of a primordial isotope has traditionally formed the basis for understanding th...
The process of nuclear excitation by electron capture in plasma environments generated by the intera...
Relativistic effects arise when atoms interact with ultra-strong laser fields. Such effects are expe...
An analysis is presented of the Coulomb excitation of low lying nuclear levels by the electrons prod...
The excitation of nuclear states by electric and magnetic multipole transitions of bound electrons i...
This paper presents several mechanisms expected to be responsible for nuclear excitation in laser-he...
The development of high intensity lasers has opened up new opportunities for nuclear physics studies...
A method of switching from a nuclear isomeric state to a lasing state is examined. A semi-classical ...
In the last decade or so, an evolution in experimental relativistic laser-plasma physics has led to ...
Nuclear effects in hydrogenlike muonic atoms exposed to intense high-frequency laser fields have bee...
The amplification of laser light to generate powers large enough to affect the nucleus has been the ...
Optical spectroscopy of a primordial isotope has traditionally formed the basis for understanding th...
The process of nuclear excitation by electron capture in plasma environments generated by the intera...
Relativistic effects arise when atoms interact with ultra-strong laser fields. Such effects are expe...
An analysis is presented of the Coulomb excitation of low lying nuclear levels by the electrons prod...
The excitation of nuclear states by electric and magnetic multipole transitions of bound electrons i...
This paper presents several mechanisms expected to be responsible for nuclear excitation in laser-he...
The development of high intensity lasers has opened up new opportunities for nuclear physics studies...
A method of switching from a nuclear isomeric state to a lasing state is examined. A semi-classical ...
In the last decade or so, an evolution in experimental relativistic laser-plasma physics has led to ...
Nuclear effects in hydrogenlike muonic atoms exposed to intense high-frequency laser fields have bee...
The amplification of laser light to generate powers large enough to affect the nucleus has been the ...
Optical spectroscopy of a primordial isotope has traditionally formed the basis for understanding th...
The process of nuclear excitation by electron capture in plasma environments generated by the intera...
Relativistic effects arise when atoms interact with ultra-strong laser fields. Such effects are expe...