Kinetic description of particle interaction with a gravitational wave

A. Anastasiadis; B. V. Chirikov; B. V. Chirikov; C. W. Misner; D. Farina; D. Farina; D. Papadopoulos; F. P. Esposito; G. M. Zaslavskii; H. Varvoglis; H. Varvoglis; H. Varvoglis; I. S. Gradshteyn; J. Ford; J. Greene; K. Hizanidis; K. Kleidis; K. Kleidis; K. Kleidis; K. S. Thorne; L. Smarr; M. Abramowitz; P. G. Macedo; P. G. Macedo; R. P. Kanwal

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Kinetic description of particle interaction with a gravitational wave

Authors: A. Anastasiadis
B. V. Chirikov
B. V. Chirikov
C. W. Misner
D. Farina
D. Farina
D. Papadopoulos
F. P. Esposito
G. M. Zaslavskii
H. Varvoglis
H. Varvoglis
H. Varvoglis
I. S. Gradshteyn
J. Ford
J. Greene
K. Hizanidis
K. Kleidis
K. Kleidis
K. Kleidis
K. S. Thorne
L. Smarr
M. Abramowitz
P. G. Macedo
P. G. Macedo
R. P. Kanwal
Publication date: 1 January 1997
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

The interaction of charged particles, moving in a uniform magnetic field, with a plane-polarized gravitational wave is considered using the Fokker-Planck- Kolmogorov (FPK) approach. By using a stochasticity criterion, we determine the exact locations in phase space, where resonance overlapping occurs. We investigate the diffusion of orbits around each primary resonance of order (m) by deriving general analytical expressions for an effective diffusion coeficient. A solution to the corresponding diffusion equation (Fokker-Planck equation) for the static case is found. Numerical integration of the full equations of motion and subsequent calculation of the diffusion coefficient verifies the analytical results.Comment: LaTeX file, 15 page

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