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Nonstationary driven oscillations of a magnetic cavity (2000)

Ruderman, M. S. ; Wright, A. N.

[S.l.] : American Institute of Physics (AIP)

Physics of Plasmas 7 (2000), S. 3515-3530

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ISSN: 1089-7674

Source: AIP Digital Archive

Topics: Physics

Notes: The problem of transition to the steady state of driven oscillations in a magnetic cavity in a cold resistive plasma is addressed. The foot point driving polarized in the inhomogeneous direction is considered, and it is assumed that the cavity length in the direction of the equilibrium magnetic field is much larger than the cavity width in the inhomogeneous direction. The latter assumption enables one to neglect the variation of the magnetic pressure in the inhomogeneous direction, which strongly simplifies the analysis. The explicit solution describing the nonstationary behavior of the magnetic pressure and the velocity is obtained. This solution is used to study the properties of the transition to the steady state of oscillation. The main conclusion is that, in general, there are two different characteristic transitional times. The first time is inversely proportional to the decrement of the global mode. It characterizes the transition to the steady state of the global motion, which is the coherent oscillation of the cavity in the inhomogeneous direction. The second time is the largest of the two times, the first transitional time and the phase-mixing time, which is proportional to the magnetic Reynolds number in 〈fraction SHAPE="CASE"〉13 power. It characterizes the transition to the steady state of the local motion, which is oscillations at the local Alfvén frequencies, and the saturation of the energy damping rate. An example from solar physics shows that, in applications, the second transitional time can be much larger than the first one. © 2000 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.1288150

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Structure of driven Alfvén waves with oblique magnetic field and dissipation (1999)

Ruderman, M. S. ; Wright, A. N.

[S.l.] : American Institute of Physics (AIP)

Physics of Plasmas 6 (1999), S. 649-659

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ISSN: 1089-7674

Source: AIP Digital Archive

Topics: Physics

Notes: The quasi-resonant behavior of linear Alfvén waves in one-dimensional magnetized weakly resistive plasmas with the slightly inclined equilibrium magnetic field is studied. The analysis concentrates on the behavior of the y-component of the velocity, v, which is the component perpendicular both to the inhomogeneity direction and to the equilibrium magnetic field, and the z-component of the velocity, w, which is the component along the inhomogeneity direction. It is shown that the behavior of v and w is described by the functions F(σ;Λ) and G(σ;Λ), where σ is the dimensionless distance along the inhomogeneity direction and the parameter Λ characterizes the relative importance of resistivity and the magnetic field inclination near the quasi-resonant position. The functions F(σ;Λ) and G(σ;Λ) are generalizations of the F and G functions introduced by Goossens, Ruderman, and Hollweg [Sol. Phys. 157, 75 (1995)] and coincide with them for Λ=0. The behavior of F(σ;Λ) and G(σ;Λ) is studied numerically for different values of Λ. It changes from monotonic to oscillatory when Λ is increased. It is shown that the connection formulas giving the jumps of w and the perturbation of the total pressure across the quasi-resonant layer and the rate of energy dissipation in the quasi-resonant layer are independent of the inclination angle. © 1999 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.873300

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Comment on "Validity of the field line resonance expansion'' [Phys. Fluids B 4, 2713 (1992)] (1994)

Thompson, M. J. ; Wright, A. N.

[S.l.] : American Institute of Physics (AIP)

Physics of Plasmas 1 (1994), S. 1092-1094

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ISSN: 1089-7674

Source: AIP Digital Archive

Topics: Physics

Notes: In a recent paper Hansen and Goertz (hereafter HG) [Phys. Fluids B 4, 2713 (1992)] considered the coupling between fast and Alfvén modes in a cold plasma containing a uniform magnetic field (B0xˆ) extending between two perfectly reflecting plane boundaries at constant x. The equilibrium medium is invariant in only one direction (yˆ), and (importantly) the density may vary along the equilibrium field lines, ρ0(x,z). HG sought solutions of the coupled governing PDEs (partial differential equations) for linear perturbations of the form exp i(kyy−ωt). The solution has been studied previously [Planet. Space Sci. 22, 483 (1974); J. Geophys. Res. 79, 1024 (1974)] in the case when ρ0 does not vary along the background field lines, when each Fourier mode in x decouples from the others and may be considered separately—reducing the problem to an ODE (ordinary differential equation). In this case a logarithmic singularity exists at the resonant field line where ω2=k2xV2A(z), VA being the Alfvén speed (V2A=B20/4πρ0). HG claim the introduction of density variation along the equilibrium field causes the modes in x to become coupled resulting in the singular ODE solution becoming a nonsingular solution in the PDE case. If this conclusion is true it is of great importance for researchers in many areas such as solar corona and laboratory plasma heating, and magnetospheric pulsations. Indeed, it suggests that a large portion of the existing literature in these fields is wrong. Clearly it is important to decide whether the calculation of HG is correct or not. In this Comment the equations they set up are analyzed and are solved in a different fashion to HG. The solution found is different from that of HG and in agreement with the existing body of literature. Some sources of error in HG's analysis are pointed out.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.870789

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