Add to ORKGWe have calculated the spin-exchange two-body rate constants associated with the population dynamics of the hyperfine levels of atomic deuterium as a function of magnetic field in the Boltzmann zero-temperature limit. Results indicate that a gas of low-field–seeking deuterium atoms trapped in a static magnetic field minimum decays rapidly into an ultrastable gas of doubly spin-polarized deuterium. We also discuss the temperature dependence of various effects
We have calculated the magnetic dipolar spin-relaxation rates of magnetically trapped doubly-spin-po...
We have calculated the magnetic dipolar spin-relaxation rates of magnetically trapped doubly-spin-po...
We have calculated the magnetic dipolar spin-relaxation rates of magnetically trapped doubly-spin-po...
We have calculated the spin-exchange two-body rate constants associated with the population dynamics...
We have calculated the spin-exchange two-body rate constants associated with the population dynamics...
We report on a calculation of the spin-exchange two-body rate constants associated with the populati...
We report on a calculation of the spin-exchange two-body rate constants associated with the populati...
We report on a calculation of the spin-exchange two-body rate constants associated with the populati...
We report on a calculation of the spin-exchange two-body rate constants associated with the populati...
We report on a calculation of the spin-exchange two-body rate constants associated with the populati...
We have calculated the spin-exchange two-body rate constants associated with the population dynamics...
We have calculated the spin-exchange two-body rate constants associated with the population dynamics...
We have calculated the spin-exchange two-body rate constants associated with the population dynamics...
We have calculated the spin-exchange two-body rate constants associated with the population dynamics...
We have calculated the magnetic dipolar spin-relaxation rates of magnetically trapped doubly-spin-po...
We have calculated the magnetic dipolar spin-relaxation rates of magnetically trapped doubly-spin-po...
We have calculated the magnetic dipolar spin-relaxation rates of magnetically trapped doubly-spin-po...
We have calculated the magnetic dipolar spin-relaxation rates of magnetically trapped doubly-spin-po...
We have calculated the spin-exchange two-body rate constants associated with the population dynamics...
We have calculated the spin-exchange two-body rate constants associated with the population dynamics...
We report on a calculation of the spin-exchange two-body rate constants associated with the populati...
We report on a calculation of the spin-exchange two-body rate constants associated with the populati...
We report on a calculation of the spin-exchange two-body rate constants associated with the populati...
We report on a calculation of the spin-exchange two-body rate constants associated with the populati...
We report on a calculation of the spin-exchange two-body rate constants associated with the populati...
We have calculated the spin-exchange two-body rate constants associated with the population dynamics...
We have calculated the spin-exchange two-body rate constants associated with the population dynamics...
We have calculated the spin-exchange two-body rate constants associated with the population dynamics...
We have calculated the spin-exchange two-body rate constants associated with the population dynamics...
We have calculated the magnetic dipolar spin-relaxation rates of magnetically trapped doubly-spin-po...
We have calculated the magnetic dipolar spin-relaxation rates of magnetically trapped doubly-spin-po...
We have calculated the magnetic dipolar spin-relaxation rates of magnetically trapped doubly-spin-po...
We have calculated the magnetic dipolar spin-relaxation rates of magnetically trapped doubly-spin-po...