We calculate the effective rate constant for three-body dipolar recombination of spin-polarized atomic hydrogen in conditions of high density and very high magnetic field strengths (beyond the <10-T range of previous calculations). We find that the decay of the gas sample is not sufficiently suppressed at magnetic fields available in the forseeable future
The authors calculate the rate of H plus H plus H surface recombination for hydrogen atoms adsorbed ...
The authors calculate the rate of H plus H plus H surface recombination for hydrogen atoms adsorbed ...
We determine the rate of b+b+b surface dipole recombination for hydrogen atoms adsorbed on a 4He fil...
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 calculate the effective rate constant for three-body dipolar recombination of spin-polarized atom...
\u3cp\u3eWe calculate the surface dipolar recombination rate Ls for spin-polarized hydrogen adsorbed...
We calculate the surface dipolar recombination rate Ls for spin-polarized hydrogen adsorbed on He4 s...
In view of the failure of the Kagan dipole mechanism to explain the magnetic field dependence of the...
In view of the failure of the Kagan dipole mechanism to explain the magnetic field dependence of the...
In view of the failure of the Kagan dipole mechanism to explain the magnetic field dependence of the...
In view of the failure of the Kagan dipole mechanism to explain the magnetic field dependence of the...
In view of the failure of the Kagan dipole mechanism to explain the magnetic field dependence of the...
We determine the rate of b+b+b surface dipole recombination for hydrogen atoms adsorbed on a 4He fil...
The authors calculate the rate of H plus H plus H surface recombination for hydrogen atoms adsorbed ...
The authors calculate the rate of H plus H plus H surface recombination for hydrogen atoms adsorbed ...
The authors calculate the rate of H plus H plus H surface recombination for hydrogen atoms adsorbed ...
We determine the rate of b+b+b surface dipole recombination for hydrogen atoms adsorbed on a 4He fil...
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 calculate the effective rate constant for three-body dipolar recombination of spin-polarized atom...
\u3cp\u3eWe calculate the surface dipolar recombination rate Ls for spin-polarized hydrogen adsorbed...
We calculate the surface dipolar recombination rate Ls for spin-polarized hydrogen adsorbed on He4 s...
In view of the failure of the Kagan dipole mechanism to explain the magnetic field dependence of the...
In view of the failure of the Kagan dipole mechanism to explain the magnetic field dependence of the...
In view of the failure of the Kagan dipole mechanism to explain the magnetic field dependence of the...
In view of the failure of the Kagan dipole mechanism to explain the magnetic field dependence of the...
In view of the failure of the Kagan dipole mechanism to explain the magnetic field dependence of the...
We determine the rate of b+b+b surface dipole recombination for hydrogen atoms adsorbed on a 4He fil...
The authors calculate the rate of H plus H plus H surface recombination for hydrogen atoms adsorbed ...
The authors calculate the rate of H plus H plus H surface recombination for hydrogen atoms adsorbed ...
The authors calculate the rate of H plus H plus H surface recombination for hydrogen atoms adsorbed ...
We determine the rate of b+b+b surface dipole recombination for hydrogen atoms adsorbed on a 4He fil...
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