364 research outputs found
Dynamic Screening and Thermonuclear Reaction Rates
We show that there are no dynamic screening corrections to the Salpeter's
enhancement factor in the weak-screening limit.Comment: 7 pages LaTex, no figures, Submitted to Ap
Toroidal equilibria in spherical coordinates
The standard Grad-Shafranov equation for axisymmetric toroidal plasma
equilibrium is customary expressed in cylindrical coordinates with toroidal
contours, and through which benchmark equilibria are solved. An alternative
approach to cast the Grad-Shafranov equation in spherical coordinates is
presented. This equation, in spherical coordinates, is examined for toroidal
solutions to describe low Solovev and high plasma equilibria in
terms of elementary functions
Effects of Rotation and Relativistic Charge Flow on Pulsar Magnetospheric Structure
We propose an analytical 3-D model of the open field-line region of a neutron
star (NS) magnetosphere. We construct an explicit analytic solution for
arbitrary obliquity (angle between the rotation and magnetic axes)
incorporating the effects of magnetospheric rotation, relativistic flow of
charges (e.g. primary electron beam) along the open field lines, and E X B
drift of these charges. Our solution employs the space-charge-limited
longitudinal current calculated in the electrodynamic model of Muslimov &
Tsygan (1992) and is valid up to very high altitudes nearly approaching the
light cylinder. We assume that in the innermost magnetosphere, the NS magnetic
field can be well represented by a static magnetic dipole configuration. At
high altitudes the open magnetic field lines significantly deviate from those
of a static dipole and tend to focus into a cylindrical bundle, swept back in
the direction opposite to the rotation, and also bent towards the rotational
equator. We briefly discuss some implications of our study to spin-powered
pulsars.Comment: 24 pages, 3 figures, accepted for publication in Ap
Shafranov's virial theorem and magnetic plasma confinement
Shafranov's virial theorem implies that nontrivial magnetohydrodynamical
equilibrium configurations must be supported by externally supplied currents.
Here we extend the virial theorem to field theory, where it relates to
Derrick's scaling argument on soliton stability. We then employ virial
arguments to investigate a realistic field theory model of a two-component
plasma, and conclude that stable localized solitons can exist in the bulk of a
finite density plasma. These solitons entail a nontrivial electric field which
implies that purely magnetohydrodynamical arguments are insufficient for
describing stable, nontrivial structures within the bulk of a plasma.Comment: 9 pages no figure
Soliton in Gravitating Gas. Hoag's Object
We explore the possibility of creating of solitons in gravitating gas. It is
shown that the virial arguments does not put an obstacle for the existence of
localized static solutions. The simplest toroidal soliton of gravitating gas
could be the explanation of the peculiar galaxy named Hoag's object.Comment: 14 pages, 1 Figur
Current driven rotating kink mode in a plasma column with a non-line-tied free end
First experimental measurements are presented for the kink instability in a
linear plasma column which is insulated from an axial boundary by finite sheath
resistivity. Instability threshold below the classical Kruskal-Shafranov
threshold, axially asymmetric mode structure and rotation are observed. These
are accurately reproduced by a recent kink theory, which includes axial plasma
flow and one end of the plasma column that is free to move due to a
non-line-tied boundary condition.Comment: 4 pages, 6 figure
Physics of the Merging Clusters Cygnus A, A3667, and A2065
We present ASCA gas temperature maps of the nearby merging galaxy clusters
Cygnus A, A3667, and A2065. Cygnus A appears to have a particularly simple
merger geometry that allows an estimate of the subcluster collision velocity
from the observed temperature variations. We estimate it to be ~2000 km/s.
Interestingly, this is similar to the free-fall velocity that the two Cygnus A
subclusters should have achieved at the observed separation, suggesting that
merger has been effective in dissipating the kinetic energy of gas halos into
thermal energy, without channeling its major fraction elsewhere (e.g., into
turbulence). In A3667, we may be observing a spatial lag between the shock
front seen in the X-ray image and the corresponding rise of the electron
temperature. A lag of the order of hundreds of kiloparsecs is possible due to
the combination of thermal conduction and a finite electron-ion equilibration
time. Forthcoming better spatial resolution data will allow a direct
measurement of these phenomena using such lags. A2065 has gas density peaks
coincident with two central galaxies. A merger with the collision velocity
estimated from the temperature map should have swept away such peaks if the
subcluster total mass distributions had flat cores in the centers. The fact
that the peaks have survived (or quickly reemerged) suggests that the
gravitational potential also is strongly peaked. Finally, the observed specific
entropy variations in A3667 and Cygnus A indicate that energy injection from a
single major merger may be of the order of the full thermal energy of the gas.
We hope that these order of magnitude estimates will encourage further work on
hydrodynamic simulations, as well as more quantitative representation of the
simulation results.Comment: Corrected the Cyg-A figure (errors shown were 1-sigma not 90%); text
unchanged. ApJ in press. Latex, 5 pages, 3 figures (2 color), uses
emulateapj.st
Analytic solutions for constant tension coil shapes
An analytical solution of the differential equation describing the shape of a flexible filamentary conductor (incapable of supporting bending stresses) in a toroidal magnetic field has been obtained. The solution derives from a series expansion of modified Bessel functions of integer order. The characteristics of toroidal field magnets for proposed tokamak devices are obtainable by term by term integration of the solution series. General expressions are given for the following coil characteristics: the conductor turn length, the solenoid inductance, the area enclosed by the coil and the coil support dimensions. For several particular cases of interest these coil characteristics are obtained as closed form analytical formula. (auth
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