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MAGNETOHYDRODYNAMIC DYNAMO IN DISC-LIKE ASTROPHYSICAL BODIES.STEPINSKI, TOMASZ FRANCISZEK. January 1986 (has links)
Magnetohydrodynamic dynamo in disc-like astrophysical bodies has been considered for some time. Important astrophysical objects like accretion discs, protostellar and protoplanetary nebulae and galaxies are thought to regenerate a magnetic field through a dynamo mechanism. Although there is a well developed theory for describing the regeneration of magnetic field in these objects, there are not any specific methods how to calculate such magnetic fields in general case. In this work, after a description of the dynamo theory, the specific method for solving the nonspherical dynamo is introduced. The unique feature of this method is accommodation of variable magnetic diffusivity in order to model the shape of a disc-like body. The detailed construction of the method is presented, as well as description of mathematical and numerical methods used for obtaining the solution. The method of checking the model with respect to well established spherical models is also presented. Finally, some examples are calculated and discussion is given on the behaviour of calculated magnetic field and possible astrophysical implications.
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EFFECTS OF MAGNETIC FIELDS ON MAIN SEQUENCE STARSHubbard, Eugene Norman January 1981 (has links)
A number of effects of low to medium strength (< 2000 gauss photospheric) magnetic fields on otherwise normal stars are proposed and examined. We consider magnetic perturbations to the standard stellar structure and evolutionary calculations in the core, the deep envelope, and the extreme outer envelope in intermediate to high mass stars. In the stellar core the gas pressure probably far exceeds the (B²/8π) magnetic field pressure term so that the only effect of such a field may come from its inhibiting convection in the core. We present isochrones of both convective and radiative core models of 2-5 M(⊙). In the deep envelope, we may expect to see mixing of partially nuclear processed material driven by rising and falling magnetic flux tubes. The effects of this mixing will be brought to the surface during the deep convection phase of the star's tenure as a red giant. We use this model to predict a signature for magnetic mixing based on the CNO isotope and abundance ratios. In the outer envelope the gas pressure is low enough that we might expect to see a perturbation of the stellar structure due to the magnetic field pressure itself. We calculate this perturbation under several physical models for intermediate and high mass stars and determine that sufficient magnetic field energy may be available in the outer envelope to expand a star by about 20% over its unperturbed radius. Finally we consider the evidence for the existence of non-magnetic neutron stars, concluding that while no non-magnetic neutron stars have ever been positively identified, we have no evidence that prevents the existence of at least as many non-magnetic as magnetic neutron stars.
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The magnetic field evolution and cooling of superconducting strange stars /Tang, King-loy. January 2000 (has links)
Thesis (M. Phil.)--University of Hong Kong, 2000. / Includes bibliographical references (leaves 92-94).
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The evolution of neutron star magnetic fields張承民, Zhang, Chengmin. January 2000 (has links)
published_or_final_version / Physics / Doctoral / Doctor of Philosophy
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The evolution of neutron star magnetic fields /Zhang, Chengmin. January 2000 (has links)
Thesis (Ph. D.)--University of Hong Kong, 2000. / Includes bibliographical references (leaves [83]-90).
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Multi-messenger probes of dark matter, from radio to multi-frequencyBeck, Geoffrey Martin January 2016 (has links)
A thesis submitted to the Department of Physics, University of the Witwatersrand in
fulfilment of the academic requirements of the degree of Doctor of Philosophy. Johannesburg, June 17, 2016. / The nature of dark matter remains one of the most significant problems in modern physics.
One candidate hypothesis with strong theoretical motivation is a WIMP (Weakly Interacting
Massive Particle) in the form of the supersymmetric neutralino. Although this lacks
experimental evidence, supersymmetry may manifest in collider experiments and also has
observable consequences in the emission of annihilation products from cosmic structures
which would play host to large neutralino densities. Historically, interest has been focussed
upon the direct detection of WIMPs, as well as indirect observation through
-rays produced
by pair-annihilation processes. In this work we present a detailed argument for a
multi-frequency observational strategy. We motivate this by studying the redshift evolution
of radio synchrotron radiation emitted by WIMP annihilation-product electrons. In so doing,
we demonstrate the potential power of the SKA to probe the neutralino parameter space,
being able to produce constraints several orders of magnitude better than current limits and
distinguish between differing neutralino masses and annihilation channels. Furthermore,
we motivate the SKA as a machine to study dark matter by discussing its ability to characterise
cosmic magnetic fields through rotation measures and polarimetry, as well as resolve
between non-thermal emissions produced by dark matter and those resulting from strictly
baryonic processes, like star formation. These technical capabilities obviate the central
uncertainties in the study of synchrotron radiation. Additionally, we highlight optimal laboratories
for neutralino detection via the SKA, based on structures that might produce dark
matter emissions with lower background synchrotron radiation. In particular we highlight
galaxies and galaxy clusters at redshifts z 1 and local dwarf spheroidal galaxies. Finally,
we demonstrate the potential of X-rays, through the ASTRO-H mission, to compliment the
SKA in a multi-frequency search. We then demonstrate our multi-frequency approach in
the analysis of several prominent claims of signals compatible with dark matter-induced
emissions. Showing that models designed to account for the AMS-2/Fermi/PAMELA antiparticle
and galactic centre
-ray excesses are incompatible with existing data as well as
demonstrating that a dark matter interpretation of the Reticulum-2
-ray excess is untenable
for a wide range of dark matter particle masses. / LG2017
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The interaction of solar oscillations with magnetic fieldCrouch, Ashley D. (Ashley David), 1975- January 2003 (has links)
Abstract not available
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Background field effects on particle physicsTinsley, Todd Michael 28 August 2008 (has links)
Not available / text
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Measurement of effects of a longitudinal magnetic field on the mercury vapor positive columnSticht, Douglas John, 1945- January 1969 (has links)
No description available.
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Magnetic field decay of neutron star : effects of interpinning of 3P2 neutron superfluid and 1S0 proton superconducting fluid /Ding, Kwan-ying, Winnis. January 1992 (has links)
Thesis (M. Phil.)--University of Hong Kong, 1993.
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