Add to ORKGWe have measured and calculated fully differential cross sections (FDCS) for ionization of helium by 75-keV proton impact. Ejected electrons with a speed close to and above the projectile speed were investigated. This range of kinematics represents a largely unexplored regime. A high sensitivity of the FDCS to the details of the description of the few-body dynamics, reported earlier for ionization of H2, was confirmed. A peak structure was found in an electron angular range between the regions where the so-called binary and recoil peaks are usually observed. The need for nonperturbative calculations using a two-center basis set is demonstrated
We have measured coincidences between neutralized projectiles and He recoil ions for 50175-keV proto...
A nonperturbative close-coupling technique is used to calculate differential cross sections for the ...
We studied mutual ionization in 200-keV H-+He collisions in a kinematically complete experiment by m...
We have measured fully differential cross sections (FDCS) for ionization in 75-keVp+H2 collisions fo...
We report fully differential cross section (FDCS) calculations and absolute measurements for ion-ato...
We present experimental and theoretical fully differential cross sections for the single ionization ...
We report fully differential cross sections (FDCS) for the single ionization of helium by a 75 keV i...
We have measured and calculated fully differential single-ionization cross sections for the complete...
We compare experimental fully differential three-dimensional angular distributions of electrons ioni...
We have measured fully differential single ionization cross sections for 75 keV p+He collisions. At ...
In this paper, we will report on fully differential cross sections (FDCS) for single ionization of h...
We have measured fully differential cross sections for ionization of H2 by 75-keV proton impact. The...
We have calculated Triply differential cross sections (TDCS) and doubly differential cross sections ...
We have measured fully momentum-analyzed recoiling target ions and scattered projectiles, produced i...
We have measured fully momentum-analyzed recoiling target ions and scattered projectiles, produced i...
We have measured coincidences between neutralized projectiles and He recoil ions for 50175-keV proto...
A nonperturbative close-coupling technique is used to calculate differential cross sections for the ...
We studied mutual ionization in 200-keV H-+He collisions in a kinematically complete experiment by m...
We have measured fully differential cross sections (FDCS) for ionization in 75-keVp+H2 collisions fo...
We report fully differential cross section (FDCS) calculations and absolute measurements for ion-ato...
We present experimental and theoretical fully differential cross sections for the single ionization ...
We report fully differential cross sections (FDCS) for the single ionization of helium by a 75 keV i...
We have measured and calculated fully differential single-ionization cross sections for the complete...
We compare experimental fully differential three-dimensional angular distributions of electrons ioni...
We have measured fully differential single ionization cross sections for 75 keV p+He collisions. At ...
In this paper, we will report on fully differential cross sections (FDCS) for single ionization of h...
We have measured fully differential cross sections for ionization of H2 by 75-keV proton impact. The...
We have calculated Triply differential cross sections (TDCS) and doubly differential cross sections ...
We have measured fully momentum-analyzed recoiling target ions and scattered projectiles, produced i...
We have measured fully momentum-analyzed recoiling target ions and scattered projectiles, produced i...
We have measured coincidences between neutralized projectiles and He recoil ions for 50175-keV proto...
A nonperturbative close-coupling technique is used to calculate differential cross sections for the ...
We studied mutual ionization in 200-keV H-+He collisions in a kinematically complete experiment by m...