John-David F. Bartoe scite author profile

High resolution spectroheliograms in the ultraviolet emission lines He I, He I1, O IV, O v, and Ne vii have been photographed during a sounding rocket flight. Simultaneously, broad band filtergrams of the far ultraviolet solar corona were obtained from the same flight. This paper describes qualitatively the spatial distribution of the UV emission. A comparison with an Ha filtergram is made. The most significant results can be summarized as follows: We find most of the ultraviolet emission concentrated around spicules, with different degree of concentration, decreasing with higher temperatures. 4 different areas of ultraviolet emission can be distinguished. (1) The normal network, bright in all UV emission lines from the chromosphere into the corona. (2) The coronal holes, bright in all UV emission lines up to 600000K but depressed in coronal lines from 1 million degrees upward. (3) The coronal depressions near active centers, absence of all ultraviolet emissions and (4) Active regions, where ultraviolet emission comes from plages, sunspots and coronal loops. High non-thermal Doppler velocities can be found in certain plage kernels around 105 to 2 • 105 K. Sunspots are bright in the ultraviolet, but do not exhibit He I or He I1 emission. The corona above sunspots is weak. Sunspots do not show high non-thermal Doppler velocities. The He I and He u emission does not follow either chromospheric, transition zone or coronal pattern; one can recognize some typical behavior of each.

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The international space station as a microgravity research platform

Penley

Schafer

Bartoe

2002

Acta Astronautica

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Ultraviolet Observations of Solar Fine Structure

Dere

Bartoe

Brueckner

et al. 1987

Science

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The High Resolution Telescope and Spectrograph was flown on the Spacelab-2 shuttle mission to perform extended observations of the solar chromosphere and transition zone at high spatial and temporal resolution. Ultraviolet spectroheliograms show the temporal development of macrospicules at the solar limb. The C IV transition zone emission is produced in discrete emission elements that must be composed of exceedingly fine (less than 70 kilometers) subresolution structures.

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The international space station: A pathway to the future

et al. 2005

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