Add to ORKGWe present a four-body model for double charge transfer, called the four-body double-capture model. This model explicitly treats all four particles in the collision, and we apply it here to fully differential cross sections (FDCSs) for proton+helium collisions. The effects of initial- and final-state electron correlations are studied, as well as the role of the projectile-nucleus interaction. We also present results for proton+helium single capture, as well as single-capture:double-capture ratios of FDCSs
The importance of projectile interactions in triple differential cross sections (TDCS) is explored f...
We have measured coincidences between neutralized projectiles and He recoil ions for 50175-keV proto...
We have measured projectile-energy-loss spectra for 50-, 100-, and 150-keV p+He collisions. From the...
Recently experimental fully differential cross sections (FDCS) have been reported for double capture...
Fully differential cross sections (FDCS) for proton + helium single capture and transfer-excitation ...
Recent advancements in experimental techniques now allow for the study of fully differential cross s...
While the original concept of the atom can be traced back to the ancient Greeks, current knowledge o...
Recent advancements in experimental techniques now allow for the study of fully differential cross s...
We present here a four-body model for transfer-excitation collisions, which we call the four-body tr...
Projectile angular-differential cross sections for single-transfer and transfer excitation have been...
Heavy ion collisions with atomic and molecular targets produce many outcomes. The Schrödinger equat...
In this work we calculate doubly differential cross sections (DDCS) for single ionization of helium ...
We present a systematic study of atomic four-body fragmentation dynamics. To this end we have measur...
We have performed experimental and theoretical studies of double ionization of helium by 6 MeV proto...
We have measured ion energy-loss spectra for 150 keV proton-helium collisions as a function of the p...
The importance of projectile interactions in triple differential cross sections (TDCS) is explored f...
We have measured coincidences between neutralized projectiles and He recoil ions for 50175-keV proto...
We have measured projectile-energy-loss spectra for 50-, 100-, and 150-keV p+He collisions. From the...
Recently experimental fully differential cross sections (FDCS) have been reported for double capture...
Fully differential cross sections (FDCS) for proton + helium single capture and transfer-excitation ...
Recent advancements in experimental techniques now allow for the study of fully differential cross s...
While the original concept of the atom can be traced back to the ancient Greeks, current knowledge o...
Recent advancements in experimental techniques now allow for the study of fully differential cross s...
We present here a four-body model for transfer-excitation collisions, which we call the four-body tr...
Projectile angular-differential cross sections for single-transfer and transfer excitation have been...
Heavy ion collisions with atomic and molecular targets produce many outcomes. The Schrödinger equat...
In this work we calculate doubly differential cross sections (DDCS) for single ionization of helium ...
We present a systematic study of atomic four-body fragmentation dynamics. To this end we have measur...
We have performed experimental and theoretical studies of double ionization of helium by 6 MeV proto...
We have measured ion energy-loss spectra for 150 keV proton-helium collisions as a function of the p...
The importance of projectile interactions in triple differential cross sections (TDCS) is explored f...
We have measured coincidences between neutralized projectiles and He recoil ions for 50175-keV proto...
We have measured projectile-energy-loss spectra for 50-, 100-, and 150-keV p+He collisions. From the...