Add to ORKGAtomic processes dominate antiproton stopping in matter at nearly all energies of interest. They significantly influence or determine the antiproton annihilation rate at all energies around or below several MeV. This article reviews what is known about these atomic processes. For stopping above about 10 eV the processes are antiproton-electron collisions, effective at medium keV through high MeV energies, and elastic collisions with atoms and adiabatic ionization of atoms, effective from medium eV through low keB energies. For annihilation above about 10 eV is the enhancement of the antiproton annihilation rate due to the antiproton-nucleus coulomb attraction, effective around and below a few tens of MeV. At about 10 eV and below, the atomi...
At the stage of the antiproton-nucleon annihilation chain of events relevant to propulsion the annih...
Investigating the antiproton cross section on nuclei at low energies (1 eV – 1 MeV) is of great inte...
For antiproton energies of several eV or less, annihilation in matter occurs through atomic rearrang...
Antiproton beams of relatively low energies (below hundreds of MeV) have recently become available. ...
The slowing down of energetic ions in materials is determined by the nuclear and electronic stopping...
The Atomic Spectroscopy And Collisions Using Slow Antiprotons (ASACUSA) project aims at studying col...
By virtue of the highly energetic particles released when they annihilate in matter, antiprotons hav...
The study of the antiproton ( $\bar {p}$ ) annihilation cross section on nuclei at low energies (eV-...
The atomic spectroscopy and collisions using slow antiprotons (ASACUSA) project aims at studying col...
Investigating the antiproton cross section on nuclei at low energies (1 eV - 1 MeV) is of great inte...
Antiproton, the antiparticle of proton, is a unique projectile in the study of atomic collision phys...
Recently, a new project, ASACUSA (atomic spectroscopy and collisions using slow antiprotons), has st...
The study of the antiproton ( p\uaf ) annihilation cross section on nuclei at low energies (eV-MeV r...
The development of techniques to decelerate, cool and confine antiprotons in vacuo with an electroma...
Antiproton, the antiparticle of proton, is a unique projectile in the study of atomic collision phys...
At the stage of the antiproton-nucleon annihilation chain of events relevant to propulsion the annih...
Investigating the antiproton cross section on nuclei at low energies (1 eV – 1 MeV) is of great inte...
For antiproton energies of several eV or less, annihilation in matter occurs through atomic rearrang...
Antiproton beams of relatively low energies (below hundreds of MeV) have recently become available. ...
The slowing down of energetic ions in materials is determined by the nuclear and electronic stopping...
The Atomic Spectroscopy And Collisions Using Slow Antiprotons (ASACUSA) project aims at studying col...
By virtue of the highly energetic particles released when they annihilate in matter, antiprotons hav...
The study of the antiproton ( $\bar {p}$ ) annihilation cross section on nuclei at low energies (eV-...
The atomic spectroscopy and collisions using slow antiprotons (ASACUSA) project aims at studying col...
Investigating the antiproton cross section on nuclei at low energies (1 eV - 1 MeV) is of great inte...
Antiproton, the antiparticle of proton, is a unique projectile in the study of atomic collision phys...
Recently, a new project, ASACUSA (atomic spectroscopy and collisions using slow antiprotons), has st...
The study of the antiproton ( p\uaf ) annihilation cross section on nuclei at low energies (eV-MeV r...
The development of techniques to decelerate, cool and confine antiprotons in vacuo with an electroma...
Antiproton, the antiparticle of proton, is a unique projectile in the study of atomic collision phys...
At the stage of the antiproton-nucleon annihilation chain of events relevant to propulsion the annih...
Investigating the antiproton cross section on nuclei at low energies (1 eV – 1 MeV) is of great inte...
For antiproton energies of several eV or less, annihilation in matter occurs through atomic rearrang...