We have rigorously calculated all the possible two-body rate constants associated with population dynamics of the hyperfine levels of atomic hydrogen as a function of magnetic field at T=0 K. These results are important in view of the recently suggested use of magnetic traps to obtain Bose-Einstein condensation
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We study the decay of magnetically trapped doubly spin-polarized atomic hydrogen in the density and ...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We have rigorously calculated all the possible two-body rate constants associated with population dy...
We have rigorously calculated all the possible two-body rate constants associated with population dy...
We have rigorously calculated all the possible two-body rate constants associated with population dy...
We have rigorously calculated all the possible two-body rate constants associated with population dy...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We have rigorously calculated all the possible two-body rate constants associated with population dy...
We have rigorously calculated all the possible two-body rate constants associated with population dy...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We study the decay of magnetically trapped doubly spin-polarized atomic hydrogen in the density and ...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We have rigorously calculated all the possible two-body rate constants associated with population dy...
We have rigorously calculated all the possible two-body rate constants associated with population dy...
We have rigorously calculated all the possible two-body rate constants associated with population dy...
We have rigorously calculated all the possible two-body rate constants associated with population dy...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We have rigorously calculated all the possible two-body rate constants associated with population dy...
We have rigorously calculated all the possible two-body rate constants associated with population dy...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
We study the decay of magnetically trapped doubly spin-polarized atomic hydrogen in the density and ...
We calculate the magnetic field and temperature dependence of the rates for all two-body spin-exchan...
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