Energy distribution of ions and electrons in DCX after burnout: Oracle code EDDIE
U.S. Atomic Energy Commission, 1961 - Science - 30 pages
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0,N Calculate arbitrary assume adiabatic confinement boundary condition burned-out plasma Calculate and store CODE EDDIE T. K. coefficients cold electrons collision with hot consultant Controlled Thermonuclear Processes d.c. plasma potential DCX AFTER BURNOUT difference equation DISTRIBUTION OF IONS EDDIE T. K. Fowler EDf)j electron distribution electron-electron terms ELECTRONS IN DCX energy conservation energy distributions energy scale energy transfer energy unit equa escape f and f Fokker-Planck equations governing governing the ion H ions h z LU homogeneous equation injection rate inside the plasma ion distribution ion energy ions and electrons isotropic iteration kinetic energy leak rate loss terms lost by ions LU LU machine magnetic mirror geometry Maxwell distribution mean energies molecular ion neutrality condition neutrals bombard numerical ORACLE CODE EDDIE particle conservation physical constants plasma interior plasma potential establishing Princeton University Rankin rate of energy renormalization ro CM scattering slow ions steady tion wherever f appears