Patent Number: 043495052
Section: claims

1. In a neutral beam injector system for generating and directing an energetic neutral particle beam along a beamline wherein said energetic neutral particle beam is derived from a beam of ions of a selected light isotopic species generated in a ground potential operated ion source and accelerated along said beamline through a neutralizer means wherein a significant portion of said ions are converted into energetic neutral particles together with electrons and residual energetic ions directed along said beamline exiting said neutralizer means, the combination of a system for direct recovery of the kinetic energy of said residual energetic ions comprising: power supply means for applying an accelerating electrical potential to said neutralizer means to accelerate said ions from said ground potential operated ion source to a selected kinetic energy level along said beamline through said neutralizer means;  magnetic field generating means coupled with the beam exit region of said neutralizer means for producing a magnetic field (B) in said exit region transverse to said beam path of sufficient strength to block said electrons from said neutral beam path at said exit region and deflect said residual ions from said beam path;  an ion collector means for collecting the charge of said deflected residual ions exiting said neutralizer, said collector means including at least one ground potential ion charge collecting surface disposed in the path of said deflected residual ions so that a retarding electric field (E) is generated in parallel opposition to said beam exiting said neutralizer in said exit region thereof by virtue of said accelerating potential applied to said neutralizer, said E field being transverse to said magnetic field B in said neutralizer exit region so that an E x B field is generated in said exit region of said neutralizer and said residual ions exiting said neutralizer are decelerated, thereby recovering their kinetic energy and their charge collected on said at least one ground potential ion collector surface;  an electron collecting means including an electron collector surface disposed closely adjacent said exit region of said neutralizer and electrically biased slightly positive with respect to said neutralizer for collecting said electrons which drift in an E x B fashion in said exit region of said neutralizer into said electron collector surface upon exiting said neutralizer so that said electrons are terminated at a potential substantially removed from ground potential to prevent energy loss due to said electrons being accelerated into said ground potential ion collecting surface. 2. The combination as set forth in claim 1 wherein said ion source is a positive ion source and said power supply means includes a power source connected between said neutralizer and ground potential for applying a negative acceleration voltage to said neutralizer means relative to said ground potential operated ion source. 3. The combination as set forth in claim 2 wherein said ion source further includes means for applying a positive boost acceleration voltage to said ions accelerated through said neutralizer substantially lower in amplitude than the amplitude of said negative acceleration voltage applied to said neutralizer means to aid in recovering the charge of said energetic residual ions deflected from said beamline at said at least one ground potential ion collector surface. 4. The combination as set forth in claim 3 wherein said neutralizer means includes a cylindrical neutralizer cell coaxially encompassing said beam path exiting said ion source to said exit region thereof and wherein said electron collector means includes a cylindrical electrically conductive collar coaxially disposed about and electrically insulated from said neutralizer cell, said collar extending axially past the exit end region of said neutralizer cell sufficient distance to prevent the escape of electrons drifting past said exit region of said neutralizer cell, said collar being constructed of a non-magnetic material. 5. The combination as set forth in claim 4 wherein said magnetic field generating means includes a pair of opposite polarity magnet pole pieces disposed outward of said electron collector collar in juxtaposition across said beamline at said exit region of said neutralizer to establish said B field transverse to said beamline in said exit region of said neutralizer. 6. The combination as set forth in claim 5 wherein said exit region of said neutralizer cell extends centrally into the axial extent of said magnetic field along said beamline provided by said pole pieces to closely couple said magnetic field with said neutralizer exit region. 7. The combination as set forth in claim 6 wherein said neutral beam injector system includes an electrically conductive vacuum containment vessel enclosing the components defined therein, said vessel having a beam exit drift tube adapted for passage of said energetic neutral beam exiting said vessel. 8. The combination as set forth in claim 7 wherein said containment vessel is connected to ground potential and comprises one of said at least one ground potential ion collector surface. 9. The combination as set forth in claim 8 wherein said magnet pole pieces are connected to ground potential and comprise further ones of said at least one ground potential ion collector surface.