Add to ORKGWe present a calculation of the effective rate constant for three-body recombination, taking rearrangement into account. We find a pronounced resonance structure as a function of magnetic field due to long-range rovibrational states of H3 in an almost equilateral configuration. This structure is superposed on a rather flat background with a slow decrease below 10 T. The results are compared with experiment
We present results of a calculation of the volume rate constant Lgeff of dipole recombination in H¿?...
We present results of a calculation of the volume rate constant Lgeff of dipole recombination in H¿?...
In view of the failure of the Kagan dipole mechanism to explain the magnetic field dependence of the...
We present a calculation of the effective rate constant for three-body recombination, taking rearran...
We present a calculation of the effective rate constant for three-body recombination, taking rearran...
We present a calculation of the effective rate constant for three-body recombination, taking rearran...
We present a calculation of the effective rate constant for three-body recombination, taking rearran...
We present a calculation of the effective rate constant for three-body recombination, taking rearran...
We present results of a calculation of the volume rate constant Lgeff of dipole recombination in H↓↓...
We present results of a calculation of the volume rate constant Lgeff of dipole recombination in H↓↓...
We calculate the effective rate constant for three-body dipolar recombination of spin-polarized atom...
We calculate the effective rate constant for three-body dipolar recombination of spin-polarized atom...
We analyze two shallow resonance states below the antiproton hydrogen dissociation threshold with a ...
We analyze two shallow resonance states below the antiproton hydrogen dissociation threshold with a ...
We analyze two shallow resonance states below the antiproton hydrogen dissociation threshold with a ...
We present results of a calculation of the volume rate constant Lgeff of dipole recombination in H¿?...
We present results of a calculation of the volume rate constant Lgeff of dipole recombination in H¿?...
In view of the failure of the Kagan dipole mechanism to explain the magnetic field dependence of the...
We present a calculation of the effective rate constant for three-body recombination, taking rearran...
We present a calculation of the effective rate constant for three-body recombination, taking rearran...
We present a calculation of the effective rate constant for three-body recombination, taking rearran...
We present a calculation of the effective rate constant for three-body recombination, taking rearran...
We present a calculation of the effective rate constant for three-body recombination, taking rearran...
We present results of a calculation of the volume rate constant Lgeff of dipole recombination in H↓↓...
We present results of a calculation of the volume rate constant Lgeff of dipole recombination in H↓↓...
We calculate the effective rate constant for three-body dipolar recombination of spin-polarized atom...
We calculate the effective rate constant for three-body dipolar recombination of spin-polarized atom...
We analyze two shallow resonance states below the antiproton hydrogen dissociation threshold with a ...
We analyze two shallow resonance states below the antiproton hydrogen dissociation threshold with a ...
We analyze two shallow resonance states below the antiproton hydrogen dissociation threshold with a ...
We present results of a calculation of the volume rate constant Lgeff of dipole recombination in H¿?...
We present results of a calculation of the volume rate constant Lgeff of dipole recombination in H¿?...
In view of the failure of the Kagan dipole mechanism to explain the magnetic field dependence of the...