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1

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Properties of coronal arches (1982)

Davis, John M. ; Krieger, Allen S.

Springer

Solar physics 80 (1982), S. 295-307

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract The properties of coronal arches located on the peripheries of active regions, observed during a sounding rocket flight on March 8, 1973, are discussed. The arches are found to overlie filament channels and their footpoints are traced to locations on the perimeters of supergranulation cells. The arches have a wide range of lengths although their widths are well approximated by the value 2.2 × 109 cm. Comparison of the size of the chromospheric footprint with the arch width indicates that arches do not always expand as they ascend into the corona. The electron temperatures and densities of the plasma contained in the arches were measured and the pressure calculated; typical values are 2 × 106 K, 1 × 109 cm−3, and 2 × 10−1 dyne cm−2, respectively. The variation of these parameters with position along the length of the arch indicates that the arches are not in hydrostatic equilibrium.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00147975

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2

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The growth of filaments by the condensation of coronal arches (1982)

Davis, John M. ; Krieger, Allen S.

Springer

Solar physics 81 (1982), S. 325-338

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract A model of filament formation based on the condensation of coronal arches is described. The condensation results from initiating the radiative instability within an arch by superimposing a transient energy supply upon the steady state heating mechanism. The transient energy supply increases the density within the arch so that when it is removed the radiative losses are sufficient to lead to cooling below the minimum in the power loss curve. Times from the initial formation of the condensation to its temperature stabilization as a cool filament have been calculated for various initial conditions. They lie in the range 104 to 105 s with the majority of the time spent above a temperature of 1 × 106 K. Under the assumption that the condensation of a single arch forms an element of the filament, a complete filament requires the condensation of an arcade of loops. Using experimentally derived parameters, filament densities of 1011 to 1012 cm−3 can be obtained.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00151305

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3

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Distribution of lifetimes for coronal soft X-ray bright points (1976)

Golub, Leon ; Krieger, Allen S. ; Vaiana, Giuseppe S.

Springer

Solar physics 49 (1976), S. 79-90

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract We have measured the lifetimes of all compact emission features visible on three sets of high time resolution soft X-ray images. The spectrum of lifetimes is found to be heavily weighted toward short lifetimes. The number of features present on the disk which live 2–48 hours is at least ten times as great as the number living more than 48 hours. The distribution of lifetimes can be fit in all three cases by a four-parameter function N(t) = N s exp(-t/τ s ) + N L exp(-t/τ L ), with τ s = 8.7±0.2, τ L = 35±4 and N s ≈ 10N L . Features living two days or less have a very broad latitude distribution (Golub et al., 1974, 1975) whereas nearly all longer-lived features are found within 30° of the equator. The growth rates of long-lived vs short-lived points are the same to within ≈ 20%, the major difference being that long-lived points continue to grow and generally reach larger sizes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00221486

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4

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Observations of the birth of a small coronal hole (1977)

Solodyna, Craig V. ; Krieger, Allen S. ; Nolte, Jerome T.

Springer

Solar physics 54 (1977), S. 123-134

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract Using soft X-ray data from the S-054 X-ray spectrographic telescope aboard Skylab, we observed temporal changes in the emission structure of the X-ray corona associated with the birth of a small coronal hole. Designated as CH6, this coronal hole was born near the equator in a time interval less than 9 1/2 hr. By constructing a light curve for a point near the center of CH6, we observed a sudden 40% decrease in X-ray emission associated with the birth of this coronal hole. On a time scale of hours, the growth of CH6 in area proceeded faster than the average rate predicted by the diffusion of solar fields. The short term decay of CH6 followed the diffusive rate to within experimental uncertainty, On a time scale of one rotation, the subsequent development of CH6 was not consistent with steady growth at the average rate predicted by diffusion.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00146428

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5

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Short term evolution of coronal hole boundaries (1978)

Nolte, Jerome T. ; Krieger, Allen S. ; Solodyna, Craig V.

Springer

Solar physics 57 (1978), S. 129-139

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract In an examination of the evolution of coronal hole boundaries on a time scale of ∼1 day, we find that 38% of all the boundaries of coronal holes observed near central meridan passage during the Skylab period shifted in location by 〉1° heliocentric in ∼1 day. Of these boundary changes, 70% were on a scale ≤3 times the average supergranulation cell size. However, large-scale shifts in the boundary locations also occurred, which involved changes in the X-ray emission from these areas of the Sun. X-ray emitting structures on the borders of isolated and evolving holes were less clearly defined than those on the boundaries of well-established, elongated holes. There were generally more changes in the boundaries of the most rapidly evolving holes, but no simple relationship between the amount of change and the rate of hole growth or decay.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00152050

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6

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Observation of spatial and temporal variations in X-ray bright point emergence patterns (1976)

Golub, Leon ; Krieger, Allen S. ; Vaiana, Giuseppe S.

Springer

Solar physics 50 (1976), S. 311-327

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract Observations of X-ray bright points (XBP) over a six-month interval in 1973 show significant variations in both the number density of XBP as a function of heliographic longitude and in the full Sun average number of XBP from one rotation to the next. The observed increases in XBP emergence are estimated to be quivalent to several large active regions emerging per day for several months. The number of XBP emerging at high latitudes also varies, in phase with the low latitude variation and reaches a maximum approximately simultaneous with a major outbreak of active regions. The quantity of magnetic flux emerging in the form of XBP at high latitudes alone is estimated to be as large as the contribution from all active regions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00155294

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7

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The decay of coronal loops brightened by flares and transients (1978)

Krieger, Allen S.

Springer

Solar physics 56 (1978), S. 107-120

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract The sizes and shapes of X-ray emitting loops brightened by flares and other coronal transients have been derived from the Skylab S-054 photographs. This information has been combined with estimates of temperature and emission measure derived from the photographs and from Solrad data to compute brightness decay times attributable to various coronal energy loss mechanisms. The computed decay times are compared to those actually observed. Examples are presented of the brightness decay of soft X-ray flare kernels, post-flare loops, and the coronal X-ray enhancement asssociated with an Hα filament disappearance. The computed decay time due to conductive losses is always found to be much more rapid than that due to radiative losses in the corona. However, the observed soft X-ray brightness decay times are always much longer than those computed from conductive cooling. The role of geometrical inhibition of conduction as discussed by Antiochos and Sturrock (1976a) is examined for these events. It is shown that this mechanism might be adequate to account for the observed results in two of the five cases examined, but it is inadequate in the other three. The possible breakdown of classical collisional thermal conductivity (Forslund, 1970) is examined and it is shown that this mechanism is not applicable to the cases presented here. Confirmation of the existence of the very high conductive fluxes predicted by the coronal flare conductive cooling models is sought from EUV and Hα observations. No evidence is found which unequivocally demonstrates the presence, at lower levels in the atmosphere, of very high conductive fluxes. The soft X-ray results are consistent with the continuation of ‘evaporation’ driven by thermal conduction (Antiochos and Sturrock, 1976b) late into the decay phase of the event. In this case, no source of continued magnetic energy dissipation after the initial stages of the flare is required to explain the lifetime of the X-ray emitting loops.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00152637

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8

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Coronal hole evolution by sudden large scale changes (1978)

Nolte, Jerome T. ; Gerassimenko, Michel ; Krieger, Allen S. ; [et al.]

Springer

Solar physics 56 (1978), S. 153-159

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract We have compared sudden shifts in coronal hole boundaries observed by the S-054 X-ray telescope on Skylab between May and November, 1973, within 1 day of CMP of the holes, at latitudes ≤ 40 °, with the long-term evolution of coronal hole area. We find that large-scale shifts in boundary locations can account for most if not all of the evolution of coronal holes. The temporal and spatial scales of these large-scale changes imply that they are the results of a physical process occurring in the corona. We conclude that coronal holes evolve by magnetic field lines opening when the holes are growing, and by fields closing as the holes shrink.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00152640

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