SIMBAD references

2002ApJ...572..335F - Astrophys. J., 572, 335-349 (2002/June-2)

Magnetic flaring in the pre-main-sequence Sun and implications for the early solar system.

FEIGELSON E.D., GARMIRE G.P. and PRAVDO S.H.

Abstract (from CDS):

To address the role of energetic processes in the solar nebula, we provide a detailed characterization of magnetic flaring in stellar analogs of the pre-main-sequence Sun based on two 0.5 day observations of the Orion Nebula cluster obtained with the Chandra X-Ray Observatory. The sample consists of 43 stars with masses between 0.7 and 1.4 M and ages from less than 0.3 to ≃10 Myr. We find that the X-ray luminosities measured in the 0.5-8 keV band are strongly elevated over main-sequence levels with an average logLX=30.3 ergs.s–1 and logLX/L*=-3.9. The X-ray emission is strongly variable within our exposures in nearly all solar analogs; about 30 flares with 29.0ergs.s–1<logLX(peak)<31.5 ergs.s–1 on timescales from 0.5 to more than 12 hr are seen during the Chandra observations. Analogs of the ≤1 Myr old pre-main-sequence Sun exhibited X-ray flares that are 101.5 times more powerful and 102.5 times more frequent than the most powerful flares seen on the contemporary Sun. Radio observations indicate that acceleration of particles to relativistic energies is efficient in young stellar flares. Extrapolating the solar relationship between X-ray luminosity and proton fluence, we infer that the young Sun exhibited a 105-fold enhancement in energetic protons compared to contemporary levels. Unless the flare geometries are unfavorable, this inferred proton flux on the disk is sufficient to produce the observed meteoritic abundances of several important short-lived radioactive isotopes. Our study thus strengthens the astronomical foundation for local proton spallation models of isotopic anomalies in carbonaceous chondritic meteorites. The radiation, particles, and shocks produced by the magnetic reconnection flares seen with Chandra may also have flash-melted meteoritic chondrules and produce excess 21Ne seen in meteoritic grains.

Abstract Copyright:

Journal keyword(s): Meteors, Meteoroids - Solar System: Formation - Stars: Pre-Main-Sequence - Sun: Activity - X-Rays: Stars

Simbad objects: 65

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2019.10.17-03:49:00

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