Particle dynamics in chirped-frequency fluctations

Particle dynamics in chirped-frequency fluctations

Hamiltonian systems describing particle motion in a wave with time-dependent (chirped) frequency are studied. The wave is found to form a single-node separatrix ([ital bucket]) moving in the phase space at a rate proportional to that of the frequency change. Particles trapped inside the bucket under...

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Veröffentlicht in:Physical review letters 1994-04, Vol.72 (16), p.2503-2507
Hauptverfasser: Hsu, CT, Cheng, CZ, Helander, P, Sigmar, DJ, White, R
Format: Artikel
Sprache:eng
Schlagworte:
661100 - Classical & Quantum Mechanics- (1992-)
661300 - Other Aspects of Physical Science- (1992-)
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
DIFFERENTIAL EQUATIONS
DYNAMICS
EQUATIONS
EQUATIONS OF MOTION
FLUCTUATIONS
FREQUENCY RANGE
HAMILTONIANS
MATHEMATICAL OPERATORS
MATHEMATICAL SPACE
MECHANICS
PARTIAL DIFFERENTIAL EQUATIONS
PARTICLES
PHASE SPACE
QUANTUM OPERATORS
SPACE
TIME DEPENDENCE
VARIATIONS
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Zusammenfassung:Hamiltonian systems describing particle motion in a wave with time-dependent (chirped) frequency are studied. The wave is found to form a single-node separatrix ([ital bucket]) moving in the phase space at a rate proportional to that of the frequency change. Particles trapped inside the bucket undergo convection, while untrapped particles colliding with the bucket get a resonant kick, in phase space. In toroidal systems, these effects can result in a large radial convective flux roughly proportional to the size of the bucket and the frequency chirping. Possible applications of this novel mechanism to tokamak plasmas are discussed.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.72.2503