Add to ORKGA consistent quantum mechanical calculation of partial cross-sections leading to different final states of antiprotonic helium atom was performed. For the four-body scattering wave function, corresponding to the initial state, as well as for the antiprotonic helium wave function, appearing in the final tate, adiabatic approximations was used. Calculations were carried out for a wide range of antiprotonic helium states and incident energies of the antiproton. Obtained energy dependances of some cross sections show a rich low energy structure
When antiprotons (i.e. the antimatter counterpart of protons) are stopped in helium gas, 97% of them...
We have developed a quantum-semiclassical approach for calculation of transition probabilities in fe...
Antiprotonic helium atom, a metastable neutral system consisting of an antiproton, an electron and a...
A consistent quantum mechanical calculation of partial cross-sections leading to different final sta...
A full quantum mechanical calculation of partial cross-sections leading to different final states of...
We apply the fully quantum-mechanical convergent close-coupling method to the calculation of antipro...
A study was performed on high precision laser spectroscopy of antiprotonic helium atoms. Antiprotoni...
In the course of their Born-Oppenheimer calculations of this system Todd and Armour noted that the l...
Antiproton, the antiparticle of proton, is a unique projectile in the study of atomic collision phys...
We consider the neutralization of an excited antiprotonic helium ion which is accompanied by antipro...
Antiproton, the antiparticle of proton, is a unique projectile in the study of atomic collision phys...
Quenching of metastable antiprotonic helium atoms in collisions with hydrogen and deuterium molecule...
Data on p\uaf slowing down and capture in helium at 1 and 0.2 mb at room temperature are presented a...
The interaction of antiprotons with low-energy positronium atoms is a fundamental three-body problem...
Low energy antiprotons offer excellent opportunities to study properties of fundamental forces and s...
When antiprotons (i.e. the antimatter counterpart of protons) are stopped in helium gas, 97% of them...
We have developed a quantum-semiclassical approach for calculation of transition probabilities in fe...
Antiprotonic helium atom, a metastable neutral system consisting of an antiproton, an electron and a...
A consistent quantum mechanical calculation of partial cross-sections leading to different final sta...
A full quantum mechanical calculation of partial cross-sections leading to different final states of...
We apply the fully quantum-mechanical convergent close-coupling method to the calculation of antipro...
A study was performed on high precision laser spectroscopy of antiprotonic helium atoms. Antiprotoni...
In the course of their Born-Oppenheimer calculations of this system Todd and Armour noted that the l...
Antiproton, the antiparticle of proton, is a unique projectile in the study of atomic collision phys...
We consider the neutralization of an excited antiprotonic helium ion which is accompanied by antipro...
Antiproton, the antiparticle of proton, is a unique projectile in the study of atomic collision phys...
Quenching of metastable antiprotonic helium atoms in collisions with hydrogen and deuterium molecule...
Data on p\uaf slowing down and capture in helium at 1 and 0.2 mb at room temperature are presented a...
The interaction of antiprotons with low-energy positronium atoms is a fundamental three-body problem...
Low energy antiprotons offer excellent opportunities to study properties of fundamental forces and s...
When antiprotons (i.e. the antimatter counterpart of protons) are stopped in helium gas, 97% of them...
We have developed a quantum-semiclassical approach for calculation of transition probabilities in fe...
Antiprotonic helium atom, a metastable neutral system consisting of an antiproton, an electron and a...