80 research outputs found
Transition region fluxes in A-F Dwarfs: Basal fluxes and dynamo activity
The transition region spectra of 87 late A and early F dwarfs and subgiants were analyzed. The emission line fluxes are uniformly strong in the early F stars, and drop off rapidly among the late A stars. The basal flux level in the F stars is consistent with an extrapolation of that observed among the G stars, while the magnetic component displays the same flux-flux relations seen among solar-like stars. Despite the steep decrease in transition region emission flux for B-V less than 0.28, C II emission is detected in alpha Aql (B-V = 0.22). The dropoff in emission is inconsistent with models of the mechanically generated acoustic flux available. It is concluded that, although the nonmagnetic basal heating is an increasingly important source of atmospheric heating among the early F stars, magnetic heating occurs in any star which has a sufficiently thick convective zone to generate acoustic heating
Eruptions from solar ephemeral regions as an extension of the size distribution of coronal mass ejections
Observations of the quiet solar corona in the 171A (~1MK) passband of the
Transition Region and Coronal Explorer (TRACE) often show disruptions of the
coronal part of small-scale ephemeral bipolar regions that resemble the
phenomena associated with coronal mass ejections on much larger scales:
ephemeral regions exhibit flare-like brightenings, rapidly rising filaments
carrying absorbing material at chromospheric temperatures, or the temporary
dimming of the surrounding corona. I analyze all available TRACE observing
sequences between 1998/04/01 and 2009/09/30 with full-resolution 171A image
sequences spanning a day or more within 500 arcsec of disk center, observing
essentially quiet Sun with good exposures and relatively low background. Ten
such data sets are identified between 2000 and 2008, spanning 570h of observing
with a total of 17133 exposures. Eighty small-scale coronal eruptions are
identified. Their size distribution forms a smooth extension of the
distribution of angular widths of coronal mass ejections, suggesting that the
eruption frequency for bipolar magnetic regions is essentially scale free over
at least two orders of magnitude, from eruptions near the arcsecond resolution
limit of TRACE to the largest coronal mass ejections observed in the inner
heliosphere. This scale range may be associated with the properties of the
nested set of ranges of connectivity in the magnetic field, in which
increasingly large and energetic events can reach higher and higher into the
corona until the heliosphere is reached
The Stellar Imager (SI) - A Mission to Resolve Stellar Surfaces, Interiors, and Magnetic Activity
The Stellar Imager (SI) is a UV/Optical, Space-Based Interferometer designed to enable 0.1 milli-arcsecond (mas) spectral imaging of stellar surfaces and, via asteroseismology, stellar interiors and of the Universe in general. The ultra-sharp images of the Stellar Imager will revolutionize our view of many dynamic astrophysical processes by transforming point sources into extended sources, and snapshots into evolving views. SI's science focuses on the role of magnetism in the Universe, particularly on magnetic activity on the surfaces of stars like the Sun. SI's prime goal is to enable long-term forecasting of solar activity and the space weather that it drives. SI will also revolutionize our understanding of the formation of planetary systems, of the habitability and climatology of distant planets, and of many magneto-hydrodynamically controlled processes in the Universe. SI is included as a 'Flagship and Landmark Discovery Mission' in the 2005 NASA Sun Solar System Connection (SSSC) Roadmap and as a candidate for a 'Pathways to Life Observatory' in the NASA Exploration of the Universe Division (EUD) Roadmap (May, 2005). In this paper we discuss the science goals and technology needs of, and the baseline design for, the SI Mission (http://hires.gsfc.nasa.gov/si/) its ability to image the 'Biggest, Baddest, Coolest Stars'
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