Claims
- 1. A method of extracting energy from energetic ions produced by nuclear fusion in a toroidal plasma comprising the steps of:
- immersing said toroidal plasma in a steady-state toroidal magnetic field;
- preparing said plasma such that said energetic ions are produced essentially in the central region of said toroidal plasma; and
- injecting waves of predetermined frequency and phase traveling substantially in a selected poloidal direction within said toroidal plasma to diffuse the energetic ions in energy and space such that said energetic ions lose energy and amplify said waves;
- said injected waves satisfying a resonance condition with energetic ions such that .omega.-k.sub..vertline. v.sub.i.vertline. -k.sub..perp. v.sub.i.perp. .ltoreq.0, is the wave frequency, k.sub..vertline. is the wave wavenumber parallel to said toroidal magnetic field, k.sub..perp. is the wave wavenumber perpendicular to said toroidal magnetic field, v.sub..vertline. is the ion parallel velocity and v.sub.i.perp. is the ion perpendicular velocity.
- 2. The method of claim 1 and said injected waves generated by injecting radio-frequency power of predetermined frequency and phase into said toroidal plasma.
- 3. The method of claim 1 and said injected waves including lower hybrid waves.
- 4. The method of claim 1 and including the step of removing energetic ions near the outer periphery of the toroidal plasma.
- 5. The method of claim 1 wherein said injected waves travel substantially in a selected toroidal direction and increase preferentially the energy of electrons traveling substantially in one toroidal direction to generate a toroidal plasma current.
- 6. The method of claim 5 wherein said injected waves are substantially electrostatic and satisfy a resonance condition with both energetic ions and electrons;
- said resonance condition with the electrons satisfying .omega.-k.sub..vertline. v.sub.e.vertline. =0, where .omega. is the wave frequency, k.sub..vertline. is the wave wavenumber parallel to said toroidal magnetic field, and v.sub.e.vertline. is the electron parallel velocity.
- 7. The method of claim 1 wherein said injected waves increase preferentially the energy of fuel ions within the plasma to increase the fusion reactivity of the fuel ions.
- 8. The method of claim 7 wherein said injected waves are substantially electrostatic and satisfy a resonance condition with both energetic ions and fuel ions;
- said resonance condition with fuel ions satisfying .omega.-k.sub..vertline. v.sub.f.vertline. -k.sub..perp. v.sub.f.perp. .ltoreq.0, where .omega. is the wave frequency, k.sub..vertline. is the wave wavenumber parallel to said toroidal magnetic field, and v.sub.f.vertline. is the fuel ion parallel velocity, k.sub..perp. is the wave wavenumber perpendicular to the magnetic field, and v.sub.f.perp. is the fuel ion perpendicular velocity.
- 9. The method of claim 1 wherein said toroidal plasma includes both minority and majority fuel ions having differing charge states, and wherein said injected waves travel substantially in a selected toroidal direction and increase preferentially the energy of minority fuel ions traveling substantially in one toroidal direction to generate toroidal plasma current and increase fusion reactivity of the minority fuel ions.
- 10. The method of claim 9 wherein said injected waves are resonant with superthermal minority fuel ions such that (.omega.-.OMEGA..sub.m)/k.sub..vertline. =4v.sub.Tm, where .omega. is the wave frequency, .OMEGA..sub.m is the minority fuel ion gyrofrequency, k.sub..vertline. is the wave wavenumber parallel to the toroidal magnetic field, and v.sub.Tm is the average thermal velocity of the minority fuel ions.
- 11. An apparatus for extracting energy from energetic ions produced by nuclear fusion in a toroidal plasma comprising:
- means for immersing said toroidal plasma in a steady-state toroidal magnetic field;
- means for preparing said plasma such that said energetic ions are produced essentially in the central region of said toroidal plasma; and
- means for injecting waves of predetermined frequency and phase traveling substantially in a selected poloidal direction within said toroidal plasma to diffuse the energetic ions in energy and space such that said energetic ions lose energy and amplify said waves;
- said means for injecting waves adapted such that injected waves satisfy a resonance condition with energetic ions such that .omega.-k.sub..vertline. v.sub.i.vertline. -k.sub..perp. v.sub.i.perp. .ltoreq.0, where .omega. is the wave frequency, k.sub..vertline. is the wave wavenumber parallel to said toroidal magnetic field, k.sub..perp. is the wave wavenumber perpendicular to said toroidal magnetic field, v.sub.i.vertline. is the ion parallel velocity and v.sub.i.perp. is the ion perpendicular velocity.
- 12. The apparatus of claim 11 wherein said means for injecting waves is adapted such that injected waves travel substantially in a selected toroidal direction and increase preferentially the energy of electrons traveling substantially in one toroidal direction to generate a toroidal plasma current.
- 13. The apparatus of claim 12 wherein said means for injecting waves is adapted such that injected waves are substantially electrostatic and satisfy a resonance condition with both energetic ions and electrons;
- said resonance condition with the electrons satisfying .omega.-k.sub..vertline. v.sub.e.vertline. =0, where .omega. is the wave frequency, k.sub..vertline. is the wave wavenumber parallel to said toroidal magnetic field, and v.sub.e.vertline. is the electron parallel velocity.
- 14. The apparatus of claim 12 wherein said means for injecting waves is adapted such that injected waves increase preferentially the energy of fuel ions within the plasma to increase the fusion reactivity of the fuel ions.
- 15. The apparatus of claim 14 wherein said means for injecting waves is adapted such that injected waves are substantially electrostatic and satisfy a resonance condition with both energetic ions and fuel ions;
- said resonance condition with fuel ions satisfying .omega.-k.sub..vertline. v.sub.f.vertline. -k.sub..perp. v.sub.f.perp. .ltoreq.0, where .omega. is the wave frequency, k.sub..vertline. is the wave wavenumber parallel to said toroidal magnetic field, and v.sub.f.vertline. is the fuel ion parallel velocity, k.sub..perp. is the wave wavenumber perpendicular to the magnetic field, and v.sub.f.perp. is the fuel ion perpendicular velocity.
- 16. The apparatus of claim 11 wherein said toroidal plasma includes both minority and majority fuel ions having differing charge states, and wherein said means for injecting waves is adapted such that injected waves travel substantially in a selected toroidal direction and increase preferentially the energy of minority fuel ions traveling substantially in one toroidal direction to generate toroidal plasma current and increase fusion reactivity of the minority fuel ions.
- 17. The apparatus of claim 16 wherein said means for injecting waves is adapted such that injected waves are resonant with superthermal minority fuel ions such that (.omega.-.OMEGA..sub.m)/k.sub..vertline. .perspectiveto.4v.sub.Tm, where .omega. is the wave frequency, .OMEGA..sub.m is the minority fuel ion gyrofrequency, k.sub..vertline. is the wave wavenumber parallel to the toroidal magnetic field, and v.sub.Tm is the average thermal velocity of the minority fuel ions.
CONTRACTUAL ORIGIN OF THE INVENTION
The United States Government has rights in this invention pursuant to Contract No. DE-AC02-76CH03073 between the U.S. Department of Energy and Princeton University.
US Referenced Citations (5)