Hamiltonian theory of guiding-center motion
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Publication:3077042
DOI10.1103/RevModPhys.81.693zbMath1205.37068MaRDI QIDQ3077042
John R. Cary, Alain J. Brizard
Publication date: 21 February 2011
Published in: Reviews of Modern Physics (Search for Journal in Brave)
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Cites Work
- Unnamed Item
- Fourth-order symplectic integration
- A symplectic integration algorithm for separable Hamiltonian functions
- An explicit symplectic integration scheme for plasma simulations
- On the dynamical reduction of the Vlasov equation
- Foundations of nonlinear gyrokinetic theory
- Adiabatic Invariant of the Harmonic Oscillator
- Stability of the Adiabatic Motion of Charged Particles in the Earth's Field
- Equilibrium of a Magnetically Confined Plasma in a Toroid
- Elimination of stochasticity in stellarators
- Time-dependent drift Hamiltonian
- Construction of three-dimensional vacuum magnetic fields with dense nested flux surfaces
- Hamiltonian perturbation theory in noncanonical coordinates
- Evaluation of the structure of ergodic fields
- Relativistic ponderomotive Hamiltonian
- Hamiltonian guiding center drift orbit calculation for plasmas of arbitrary cross section
- Isodynamical (omnigenous) equilibrium in symmetrically confined plasma configurations
- Stochasticity reduction
- Guiding center drift equations
- A guiding center Hamiltonian: A new approach
- Omnigenous equilibria
- Hamiltonian formulation of guiding center motion
- Necessary stability conditions for field-reversed theta pinches
- Drift Hamiltonian in magnetic coordinates
- Hamiltonian formulation of guiding center motion and of the linear and nonlinear gyrokinetic equation
- Time dependent canonical transformations and the symmetry-equals-invariant theorem
- Krylov–Boholiubov Methods and Gyrokinetics
- Improved theory of collisionless particle motion in stellarators
- Asymptotic Theory of Hamiltonian and other Systems with all Solutions Nearly Periodic
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