Element and isotope separation in a vacuum-arc centrifuge
- 1 September 1984
- journal article
- conference paper
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 56 (5) , 1398-1413
- https://doi.org/10.1063/1.334139
Abstract
Centrifugal separation of elements and isotopes in a rotating, magnetized column of highly ionized plasma is described. Such a centrifuge differs from prior plasma centrifuges in that the source of plasma is a laser-initiated vacuum arc, rather than a gas discharge. Detailed measurements are presented of the axial evolution of the radial plasma flux and separation profiles. Centrifugal separation increases rapidly with distance from the cathode plasma source, reaching an asymptotic value about 60 cm downstream. The separation is observed to increase exponentially with the square of the radius. The potential profile across the column was measured and found to be parabolic with radius. These observations are accounted for by a steady-state, multispecies, fluid model of the rotating plasma.This publication has 19 references indexed in Scilit:
- Plasma CentrifugePhysical Review Letters, 1981
- Quantum Langevin EquationPhysical Review Letters, 1981
- Mass separation experiment with a partially ionized rotating plasmaPlasma Physics, 1978
- On the balance and separation processes in rotating plasmasNuclear Instruments and Methods, 1977
- Boundary-value problem for plasma centrifuge at arbitrary magnetic Reynolds numbersPhysical Review A, 1977
- VORTEX: A quasi-steady supermagnetosonic rotating plasma experimentPlasma Physics, 1974
- Rotating PlasmasNuclear Fusion, 1971
- Experimental evidence of element and isotope separation in a rotating plasmaPlasma Physics, 1971
- The Design and Characteristics of Highly Ionized Hydrogenous Laboratory Plasma SourcesAustralian Journal of Physics, 1963
- Collision between a Nonionized Gas and a Magnetized PlasmaReviews of Modern Physics, 1960