GHRS observations of cool, low-gravity stars. 1: The far-ultraviolet spectrum of alpha Orionis (M2 Iab)

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view Abstract Citations (56) References (54) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS GHRS Observations of Cool, Low-Gravity Stars. I. The Far-Ultraviolet Spectrum of alpha Orionis (M2 Iab) Carpenter, Kenneth G. ; Robinson, Richard D. ; Wahlgren, Glenn M. ; Linsky, Jeffrey L. ; Brown, Alexander Abstract We present far-UV (1200-1930 A) observations of the prototypical red supergiant star alpha Ori, obtained with the Goddard High Resolution Spectrograph (GHRS) on the Hubble Space Telescope (HST). The observations, obtained in both low- (G140L) and medium- (G160/200M) resolution modes, unambiguously confirm that the UV 'continuum' tentatively seen with (IUE) is in fact a true continuum and is not due to a blend of numerous faint emission features or scattering inside the IUE spectrograph. This continuum appears to originate in the chromospheric of the star at temperatures ranging from 3000-5000 K, and we argue that it is not related to previously reported putative companions or to bright spots on the stellar disk. Its stellar origin is further confirmed by overlying atomic and molecular absorptions from the chromosphere and circumstellar shell. The dominant structure in this spectral region is due to nine strong, broad absorption bands of the fourth-positive A-X system of CO, superposed on this continuum in the 1300-1600 A region. Modeling of this CO absorption indicates that it originates in the circumstellar shell in material characterized by T = 500 K, N(CO) = 1.0 x 1018 per sq cm, and Vturb = 5.0 km per sec. The numerous chromospheric emission features are attributed mostly to fluorescent lines of Fe II and Cr II (both pumped by Lyman Alpha) and S I lines, plus a few lines of O I, C I, and Si II. The O I and C I UV 2 multiplets are very deficient in flux, compared to both the flux observed in lines originating from common upper levels but with markedly weaker intrinsic strength (i.e., O I UV 146 and C I UV 32) and to the UV 2 line fluxes seen in other cool, less luminous stars. This deficiency appears to be caused by strong self-absorption of these resonance lines in the circumstellar shell and/or upper chromosphere of alpha Ori. Atomic absorption features, primarily due to C I and Fe II are clearly seen in the G160M spectrum centered near 1655 A. These Fe II features are formed at temperatures that can occur only in the chromosphere of the star and are clearly not photospheric or circumstellar in origin. Publication: The Astrophysical Journal Pub Date: June 1994 DOI: 10.1086/174244 Bibcode: 1994ApJ...428..329C Keywords: Absorption Spectra; Chromosphere; Line Spectra; Stellar Envelopes; Supergiant Stars; Ultraviolet Spectra; High Resolution; Hubble Space Telescope; Iue; Spectrographs; Stellar Models; Astrophysics; LINE: IDENTIFICATION; STARS: CHROMOSPHERES; STARS: INDIVIDUAL CONSTELLATION NAME: ALPHA ORIONIS; STARS: LATE-TYPE; STARS: SUPERGIANTS; ULTRAVIOLET: STARS full text sources ADS | data products MAST (2) SIMBAD (1) INES (1) ESA (1) Related Materials (4) Part 2: 1995ApJ...444..424C Part 3: 1997ApJ...479..970C Part 4: 1998ApJ...503..396R Part 5: 1999ApJ...521..382C