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Do surges heat the corona (1977)

Webb, D. F. ; Rust, D. M. ; Maccombie, W.

In: Other Sources

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Publication Date: 2019-06-27

Description: A comparison of X-ray filtergrams obtained during the Skylab mission 8 hr before and within 4 hr following 54 active region surges on the disk revealed only 6 cases of long-enduring, large-scale (exceeding 10,000 km) coronal enhancements that might have been associated with surge activity. It is concluded that there is no evidence for any substantial increase in the temperature or amount of coronal material during reported surges.

Keywords: SOLAR PHYSICS

Type: Solar Physics; 54; Sept

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2

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Evidence linking coronal transients to the evolution of coronal holes (1978)

Nolte, J. T. ; Webb, D. F. ; Solodyna, C. V. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: The positions of X-ray coronal transients outside of active regions observed during Skylab were superposed on H-alpha synoptic charts and coronal hole boundaries for seven solar rotations. A detailed spatial association between the transients and neutral lines was confirmed. It was found that most of the transients were related to large-scale changes in coronal hole area and tended to occur on the borders of evolving equatorial holes.

Keywords: SOLAR PHYSICS

Type: Solar Physics; 58; July 197

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3

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X-ray analysis of a polar plume (1978)

Ahmad, I. A. ; Webb, D. F.

In: Other Sources

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Publication Date: 2019-06-27

Description: Polar plumes have been detected in X-rays with the Skylab S-054 experiment. Observations of one well-observed plume are analyzed and the plasma pressure is determined. An isothermal model in hydrostatic equilibrium is found to require unacceptably low temperatures. A hydrodynamic model is proposed which is consistent with earlier white light and EUV observations. Calculations indicate that the total outward mass flux in polar plumes is comparable to that in high speed solar wind streams expected from a polar coronal hole.

Keywords: SOLAR PHYSICS

Type: Solar Physics; 58; July 197

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4

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Coronal X-ray enhancements associated with H-alpha filament disappearances (1976)

Krieger, A. S. ; Rust, D. M. ; Webb, D. F.

In: Other Sources

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Publication Date: 2019-06-27

Description: The X-ray telescope experiment aboard the Skylab/ATM mission provided high-resolution soft X-ray images of the lower corona away from active regions, revealing frequent large-scale transient X-ray enhancements which could often be associated with the disappearance of H-alpha filaments. The X-ray emitting structures featured peak brightnesses similar to those of nonflaring active region structures, durations from 3 to 40 hours, shapes that in general outlined the preexisting H-alpha filaments to as large as 400,000 km, apparent expansion velocities of the order of tens of km/sec, and observed peak temperatures of the order of a few million degrees. One such event is described and analyzed in detail. Two explanations of the events are discussed: (1) excess cool material is present in the filament cavity, contributing to the X-ray enhancement, and (2) the enhancement is due to the compression of preexisting material by a changing magnetic field.

Keywords: SOLAR PHYSICS

Type: Solar Physics; 48; May 1976

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5

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The association of nonthermal electrons with non-flaring coronal transients (1978)

Kundu, M. R. ; Webb, D. F.

In: Other Sources

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Publication Date: 2019-06-27

Description: A close temporal and spatial association has been found between erupting filaments/coronal transients and radio noise storm continua. The three transients studied occurred away from active regions and are members of a class not usually accompanied by chromospheric emission. The data analyzed were from the S-054 soft X-ray telescope on Skylab and from one- and two-dimensional interferometers at meter and decameter wavelengths at Nancay and Clark Lake observatories. Calculations confirmed that observed microwave radiation from the transients is due to thermal bremsstrahlung. The results are consistent with an interpretation of heating of an increased amount of coronal plasma by nonthermal, 10-100 keV electrons. Three possibilities for the source of the material are described: (1) the filament material; (2) evaporation from the chromosphere or transition region; and (3) via a long-lived reconnection process.

Keywords: SOLAR PHYSICS

Type: Solar Physics; 57; Mar. 197

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6

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Soft X-ray observations of large-scale coronal active region brightenings (1977)

Rust, D. M. ; Webb, D. F.

In: Other Sources

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Publication Date: 2019-06-27

Description: One hundred fifty-six large-scale enhancements of X-ray emission from solar active regions were studied on full-disk filterheliograms to determine characteristic morphology and expansion rates for heated coronal plasma. The X-ray photographs were compared with H-alpha observations of flares, sudden filament disappearances, sprays, and loop prominence systems (LPS). Eighty-one percent of the X-ray events were correlated with H-alpha filament activity, but only 44% were correlated with reported H-alpha flares. The X-ray enhancements took the form of loops or arcades of loops ranging in length from 60,000 km to 520,000 km and averaging 15,000 km in width. Lifetimes ranged from at least 3 hr to more than 24 hr. The event frequency was approximately 1.4 per day. X-ray loop arcades evolved from sharp-edged clouds in cavities vacated by rising H-alpha filaments. Expansion velocities of the loops were about 50 km/s immediately after excitation and 1-10 km/s several hours later. These long-lived loop arcades are identified with LPS, and it is suggested that the loops outlined magnetic fields which were reconnecting after filament eruptions. Another class of X-ray-enhanced loops stretched outside active regions and accompanied sprays or lateral filament ejections. It is suggested that these loops outlined closed magnetic fields guiding slow-mode shocks from flares and filament eruptions.

Keywords: SOLAR PHYSICS

Type: Solar Physics; 54; Oct. 197

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