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The Mass-loss History of the Red Hypergiant VY CMa*

Roberta M. Humphreys, Kris Davidson, A. M. S. Richards, L. M. Ziurys, Terry J. Jones, Kazunori Ishibashi

2021The Astronomical Journal33 citationsDOIOpen Access PDF

Abstract

Abstract Imaging and spectroscopy of the knots, clumps, and extended arcs in the complex ejecta of VY CMa confirm a record of high mass-loss events over the past few hundred years. Hubble Space Telescope/Space Telescope Imaging Spectrograph spectroscopy of numerous small knots close to the star allow us to measure their radial velocities from the strong K i emission and determine their separate motions, spatial orientations, and time since ejecta. Their ages concentrate around 70, 120, 200, and 250 yr ago. A K i emission knot only 50 mas from the star ejected as recently as 1985–1995 may coincide with an H 2 O maser. Comparison with VY CMa’s historic light curve from 1800 to the present shows several knots with ejection times that correspond with extended periods of variability and deep minima. The similarity of this correspondence in VY CMa with the remarkable recent dimming of Betelgeuse and an outflow of gas is apparent. The evidence for similar outflows from the surface of a more typical red supergiant suggests that discrete ejections are more common and surface or convective activity is a major source of mass loss for red supergiants.

Topics & Concepts

PhysicsAstrophysicsEjectaAstronomyRed supergiantEmission spectrumLight curveSupergiantHubble space telescopeSpectroscopyHubble Deep Field SouthSpectrographKnot (papermaking)StarsRadial velocitySpace Telescope Imaging SpectrographGlobular clusterProper motionAbsolute magnitudeRed giantStellar evolutionPlanetary nebulaSpectral lineAdvanced Camera for SurveysSpitzer Space TelescopeOutflowStellar, planetary, and galactic studiesAstronomy and Astrophysical ResearchEducational Leadership and Practices
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