Field-reversed configurations with a component of energetic particles
Identifieur interne : 002691 ( Main/Exploration ); précédent : 002690; suivant : 002692Field-reversed configurations with a component of energetic particles
Auteurs : J. M. Finn [États-Unis] ; R. N. Sudan [États-Unis]Source :
- Nuclear Fusion [ 0029-5515 ] ; 1982-11-01.
English descriptors
- Teeft :
- Absolute confinement, Adiabatic, Adiabatic part, Alamo, Alfven, Anomalous, Appl, Aspect ratio, Astron, Axial, Axial betatron frequency, Axial energy, Axial length, Axisymmetric, Axisymmetry, Azimuthal, Background plasma, Ballooning, Ballooning mode, Ballooning modes, Ballooning stability, Beam ions, Behaviour, Benford, Bennett pinch, Berk, Betatron, Betatron frequencies, Betatron frequency, Betatron orbits, Betatron resonances, Bifurcation, Boundary conditions, Briggs, Centrifugal, Centrifugal force, Christofilos, Classical diffusion, Coalescence, Cold background plasma, Cold plasma, Compression, Condit, Conf, Configuration, Const, Convergence, Cornell university, Correlation time, Critical value, Current density, Cusp, Cyclotron, Cyclotron frequency, Decay rate, Deep solutions, Diamagnetic, Dielectric, Dimensionless, Diode, Dissipation, Distribution function, Dreike, Drift modes, Effective curvature, Eigenvalue, Electric field, Electron currents, Electron energy, Electron ring, Electron rings, Energetic ions, Energetic particles, Energy principle, Energy surface, Equilibrium, Ergodic, Ergodic orbits, Ergodicity, Exponential, Exponential equilibria, External coils, External field, Field line, Field lines, Field reversal, Field reversal factor, Finn, First term, Fleischmann, Flux hole, Flux surface, Flux surfaces, Friedman, Furth, Fusion, General case, Generalized energy principle, Growth rate, Growth rates, Gyrofrequency, Gyroradius, Hamiltonian, Humphries, Hybrid, Hybrid system, Iaea, Ibid, Imaginary part, Incoming pulse, Injection, Instability, Integrable, Interchange mode, Interchange modes, Interchange stability, Ion, Iteration, Kapetanakos, Killeen, Kinetic theory, Kink, Kink modes, Krall, Larrabee, Lawrence livermore laboratory report, Layer, Lett, Linearized, Livermore, Long layer, Long layers, Lovelace, Lowest order, Magnetic axis, Magnetic compression, Magnetic cusp, Magnetic field, Magnetic fields, Magnetosonic, Major radius, Mankofsky, Marginal stability, Microinstabilities, Mirror ratio, Mode, Monotonically, Naval research laboratory, Necessary condition, Newcomb, Nucl, Nuclear fusion, Nuclear fusion research, Numerical results, Numerical simulation, Numerical simulations, Numerical studies, Oblate, Ohkawa, Orbit, Orbit integral, Order unity, Other hand, Particle orbits, Particle ring, Pearlstein, Perturbation, Perturbed, Phase space, Phase velocity, Phys, Plasma, Plasma compression, Plasma currents, Plasma density, Plasma ions, Plasma phys, Plasma physics, Plasma pressure, Plasma transport, Poloidal, Poloidal field, Power spectra, Precession, Precession frequency, Precession mode, Precessional, Precessional mode, Precessional motion, Pressure profile, Proc, Programme, Proton, Proton layer, Pulse, Qualitative agreement, Radial, Reiman, Relativistic electrons, Rensink, Resistive, Resistive wall, Resistivity, Results show, Reversal, Ring equilibria, Ring ions, Rings, Rosenbluth, Rotational, Scenario, Second term, Separatrix, Seyler, Shallow solutions, Simulation, Single pulse, Small fraction, Special case, Spheromak, Stability, Stability criterion, Stallard, Stochastic, Stochastic behaviour, Stochastic orbits, Stochasticity, Such modes, Sudan, Sufficient condition, Thermal spread, Third term, Tilt mode, Toroidal, Toroidal field, Toroidal mode number, Unstable mode, Unstable modes, Vlasov, Vlasov equation, Vortex.
Url:
DOI: 10.1088/0029-5515/22/11/004
Affiliations:
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<profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Absolute confinement</term>
<term>Adiabatic</term>
<term>Adiabatic part</term>
<term>Alamo</term>
<term>Alfven</term>
<term>Anomalous</term>
<term>Appl</term>
<term>Aspect ratio</term>
<term>Astron</term>
<term>Axial</term>
<term>Axial betatron frequency</term>
<term>Axial energy</term>
<term>Axial length</term>
<term>Axisymmetric</term>
<term>Axisymmetry</term>
<term>Azimuthal</term>
<term>Background plasma</term>
<term>Ballooning</term>
<term>Ballooning mode</term>
<term>Ballooning modes</term>
<term>Ballooning stability</term>
<term>Beam ions</term>
<term>Behaviour</term>
<term>Benford</term>
<term>Bennett pinch</term>
<term>Berk</term>
<term>Betatron</term>
<term>Betatron frequencies</term>
<term>Betatron frequency</term>
<term>Betatron orbits</term>
<term>Betatron resonances</term>
<term>Bifurcation</term>
<term>Boundary conditions</term>
<term>Briggs</term>
<term>Centrifugal</term>
<term>Centrifugal force</term>
<term>Christofilos</term>
<term>Classical diffusion</term>
<term>Coalescence</term>
<term>Cold background plasma</term>
<term>Cold plasma</term>
<term>Compression</term>
<term>Condit</term>
<term>Conf</term>
<term>Configuration</term>
<term>Const</term>
<term>Convergence</term>
<term>Cornell university</term>
<term>Correlation time</term>
<term>Critical value</term>
<term>Current density</term>
<term>Cusp</term>
<term>Cyclotron</term>
<term>Cyclotron frequency</term>
<term>Decay rate</term>
<term>Deep solutions</term>
<term>Diamagnetic</term>
<term>Dielectric</term>
<term>Dimensionless</term>
<term>Diode</term>
<term>Dissipation</term>
<term>Distribution function</term>
<term>Dreike</term>
<term>Drift modes</term>
<term>Effective curvature</term>
<term>Eigenvalue</term>
<term>Electric field</term>
<term>Electron currents</term>
<term>Electron energy</term>
<term>Electron ring</term>
<term>Electron rings</term>
<term>Energetic ions</term>
<term>Energetic particles</term>
<term>Energy principle</term>
<term>Energy surface</term>
<term>Equilibrium</term>
<term>Ergodic</term>
<term>Ergodic orbits</term>
<term>Ergodicity</term>
<term>Exponential</term>
<term>Exponential equilibria</term>
<term>External coils</term>
<term>External field</term>
<term>Field line</term>
<term>Field lines</term>
<term>Field reversal</term>
<term>Field reversal factor</term>
<term>Finn</term>
<term>First term</term>
<term>Fleischmann</term>
<term>Flux hole</term>
<term>Flux surface</term>
<term>Flux surfaces</term>
<term>Friedman</term>
<term>Furth</term>
<term>Fusion</term>
<term>General case</term>
<term>Generalized energy principle</term>
<term>Growth rate</term>
<term>Growth rates</term>
<term>Gyrofrequency</term>
<term>Gyroradius</term>
<term>Hamiltonian</term>
<term>Humphries</term>
<term>Hybrid</term>
<term>Hybrid system</term>
<term>Iaea</term>
<term>Ibid</term>
<term>Imaginary part</term>
<term>Incoming pulse</term>
<term>Injection</term>
<term>Instability</term>
<term>Integrable</term>
<term>Interchange mode</term>
<term>Interchange modes</term>
<term>Interchange stability</term>
<term>Ion</term>
<term>Iteration</term>
<term>Kapetanakos</term>
<term>Killeen</term>
<term>Kinetic theory</term>
<term>Kink</term>
<term>Kink modes</term>
<term>Krall</term>
<term>Larrabee</term>
<term>Lawrence livermore laboratory report</term>
<term>Layer</term>
<term>Lett</term>
<term>Linearized</term>
<term>Livermore</term>
<term>Long layer</term>
<term>Long layers</term>
<term>Lovelace</term>
<term>Lowest order</term>
<term>Magnetic axis</term>
<term>Magnetic compression</term>
<term>Magnetic cusp</term>
<term>Magnetic field</term>
<term>Magnetic fields</term>
<term>Magnetosonic</term>
<term>Major radius</term>
<term>Mankofsky</term>
<term>Marginal stability</term>
<term>Microinstabilities</term>
<term>Mirror ratio</term>
<term>Mode</term>
<term>Monotonically</term>
<term>Naval research laboratory</term>
<term>Necessary condition</term>
<term>Newcomb</term>
<term>Nucl</term>
<term>Nuclear fusion</term>
<term>Nuclear fusion research</term>
<term>Numerical results</term>
<term>Numerical simulation</term>
<term>Numerical simulations</term>
<term>Numerical studies</term>
<term>Oblate</term>
<term>Ohkawa</term>
<term>Orbit</term>
<term>Orbit integral</term>
<term>Order unity</term>
<term>Other hand</term>
<term>Particle orbits</term>
<term>Particle ring</term>
<term>Pearlstein</term>
<term>Perturbation</term>
<term>Perturbed</term>
<term>Phase space</term>
<term>Phase velocity</term>
<term>Phys</term>
<term>Plasma</term>
<term>Plasma compression</term>
<term>Plasma currents</term>
<term>Plasma density</term>
<term>Plasma ions</term>
<term>Plasma phys</term>
<term>Plasma physics</term>
<term>Plasma pressure</term>
<term>Plasma transport</term>
<term>Poloidal</term>
<term>Poloidal field</term>
<term>Power spectra</term>
<term>Precession</term>
<term>Precession frequency</term>
<term>Precession mode</term>
<term>Precessional</term>
<term>Precessional mode</term>
<term>Precessional motion</term>
<term>Pressure profile</term>
<term>Proc</term>
<term>Programme</term>
<term>Proton</term>
<term>Proton layer</term>
<term>Pulse</term>
<term>Qualitative agreement</term>
<term>Radial</term>
<term>Reiman</term>
<term>Relativistic electrons</term>
<term>Rensink</term>
<term>Resistive</term>
<term>Resistive wall</term>
<term>Resistivity</term>
<term>Results show</term>
<term>Reversal</term>
<term>Ring equilibria</term>
<term>Ring ions</term>
<term>Rings</term>
<term>Rosenbluth</term>
<term>Rotational</term>
<term>Scenario</term>
<term>Second term</term>
<term>Separatrix</term>
<term>Seyler</term>
<term>Shallow solutions</term>
<term>Simulation</term>
<term>Single pulse</term>
<term>Small fraction</term>
<term>Special case</term>
<term>Spheromak</term>
<term>Stability</term>
<term>Stability criterion</term>
<term>Stallard</term>
<term>Stochastic</term>
<term>Stochastic behaviour</term>
<term>Stochastic orbits</term>
<term>Stochasticity</term>
<term>Such modes</term>
<term>Sudan</term>
<term>Sufficient condition</term>
<term>Thermal spread</term>
<term>Third term</term>
<term>Tilt mode</term>
<term>Toroidal</term>
<term>Toroidal field</term>
<term>Toroidal mode number</term>
<term>Unstable mode</term>
<term>Unstable modes</term>
<term>Vlasov</term>
<term>Vlasov equation</term>
<term>Vortex</term>
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