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Comments on the observability of coronal variations (1989)

Golub, L. ; Hartquist, T. W. ; Quillen, A. C.

Springer

Solar physics 122 (1989), S. 245-261

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract We discuss the observable variability of spectral lines in the soft X-ray and XUV region. Rapid variability of coronal emission, both in flaring and non-flaring structures has been reported and is particularly prominent when high spatial resolution is available. Examination of the ionization and recombination time-scales for the formation and removal of ions with prominent solar emission lines shows that, even though ionization equilibrium generally prevails, the observable variability time-scales are often limited by these atomic processes, independent of the physical process which is causing the change in the solar atmosphere. Rapid heating can lead to an initial freezing-in of abundances of some ions; observations of at least one low- and one high-excitation line from such an ion would permit studies of the time evolution of the emission measure and temperature. In a very limited number of cases, rapid cooling leads to freezing-in of the abundance of an ion and observations of a low-excitation line of this ion will not yield accurate information about the thermal evolution. Thus, future observations of Mgx 609 Å should be augmented by simultaneous observation at another wavelength, such as 63 Å. In addition, with the ability to produce images in isolated spectral lines it becomes possible to select those for which rapid variability is observable, such asOvii, rather than lines which were selected on the basis of previous hardware constraints, such asOvii.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00912995

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Phase transitions in the ISM a source of dissipative behaviour (1995)

Quillen, A. C. ; Quillen, C. B.

Springer

Astrophysics and space science 233 (1995), S. 189-193

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ISSN: 1572-946X

Keywords: Galactic structure ; Gas dynamics

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract By considering a simple fluid model, we investigate the role of phase transitions in the ISM on the galaxy- scale gas dynamics. Cooling and heating timescales in the ISM are typically shorter than typical galactic rotation timescales, so the individual phases in the ISM can be assumed to be in temperature equilibrium with the radiation field. Using this approximation we can construct an equation of state which depends upon the average density and mass fractions in the individual phases. Previous studies suggest that there is an equilibrium phase fraction as a function of pressure. We incorporate evolution towards this equilibrium state as a relaxation term with a time to obtain equilibrium τ. We derive a condition in terms of a critical Mach number when one dimensional shocks should be continuous. For small values of the relaxation time τ we show that the relaxation term acts like a viscosity. We show with one dimensional simulations that increasing τ causes shocks to become smoother. This work suggests that phase changes can strongly effect the gas dynamics of the ISM across spiral arms and bars.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00627350

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