SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2127250306> ?p ?o ?g. }

Showing items 1 to 100 of ±129 with 100 items per page.

W2127250306 endingPage "474" @default.
W2127250306 startingPage "454" @default.
W2127250306 abstract "A spectral analysis of the prototypical red supergiant star α Ori that is based on near-UV, optical, and near-IR high-dispersion spectra obtained between 1992 September and 1999 July with the Space Telescope Imaging Spectrograph and the Goddard High Resolution Spectrograph on the Hubble Space Telescope, the Utrecht Echelle Spectrograph, and the SoFin Echelle Spectrograph is presented. With detailed non-LTE radiative transfer calculations in spherical geometry, we model the mean conditions in the stellar chromosphere from Hα and the Mg II resonance doublet. The Hα absorption line emerges from an extended chromosphere. Temporal changes of its velocity structure are determined from detailed fits to near-UV Si I lines, and chromospheric expansion velocities around 4 km s -1 are found in 1992, whereas the chromosphere was collapsing onto the photosphere with a velocity of 5 km s -1 in 1998-1999. The Hα core depth is correlated over time with weaker depression changes seen in prominent TiO band heads that dominate the optical spectrum. From elaborate spectral synthesis calculations, we isolate unblended metal absorption lines in the near-IR and determine Teff = 3500 K and log(g) = -0.5 for solar metallicity and 12 ± 0.5 km s -1 for macrobroadening and v sin i. Semiempirical fits yield chromospheric temperatures not in excess of 5500 K, but with long-term changes by ~400 K. The model extends over 5000 R☉ and requires supersonic microturbulence values ranging to 19 km s -1, in strong contrast with the photospheric value of only 2 km s -1. We observe Doppler shifts of 4-8 km s -1 in the scattering cores of many double-peaked near-UV emission lines which correlate with changes in the intensity ratio of their emission components. The red emission components were much stronger in 1992, indicating a phase of enhanced chromospheric outflow, for which we determine a spherical mass-loss rate of 6 × 10-7 M☉ yr -1. We present a discussion of chromospheric pulsation in this massive star. Detailed modeling of the observed Mg II h and k line asymmetry is also presented. We demonstrate that a chromospheric Mn I blend strongly contributes to this puzzling asymmetry." @default.
W2127250306 created "2016-06-24" @default.
W2127250306 creator A5037321777 @default.
W2127250306 creator A5089497818 @default.
W2127250306 date "2000-12-10" @default.
W2127250306 modified "2023-10-18" @default.
W2127250306 title "Modeling the Variable Chromosphere of α Orionis" @default.
W2127250306 cites W1490206394 @default.
W2127250306 cites W1633687624 @default.
W2127250306 cites W1647173005 @default.
W2127250306 cites W1657281599 @default.
W2127250306 cites W1967112628 @default.
W2127250306 cites W1970807960 @default.
W2127250306 cites W1973072738 @default.
W2127250306 cites W1976220534 @default.
W2127250306 cites W1977457396 @default.
W2127250306 cites W1979495364 @default.
W2127250306 cites W1980480587 @default.
W2127250306 cites W1984354435 @default.
W2127250306 cites W1986226601 @default.
W2127250306 cites W1988806959 @default.
W2127250306 cites W1991501845 @default.
W2127250306 cites W1993189492 @default.
W2127250306 cites W1996934704 @default.
W2127250306 cites W1999127461 @default.
W2127250306 cites W1999935371 @default.
W2127250306 cites W2006341867 @default.
W2127250306 cites W2006487645 @default.
W2127250306 cites W2006776508 @default.
W2127250306 cites W2009019092 @default.
W2127250306 cites W2015718251 @default.
W2127250306 cites W2020251680 @default.
W2127250306 cites W2025788420 @default.
W2127250306 cites W2035689629 @default.
W2127250306 cites W2038246390 @default.
W2127250306 cites W2045290064 @default.
W2127250306 cites W2047611744 @default.
W2127250306 cites W2049723207 @default.
W2127250306 cites W2049952862 @default.
W2127250306 cites W2050306440 @default.
W2127250306 cites W2053294121 @default.
W2127250306 cites W2055488747 @default.
W2127250306 cites W2056025353 @default.
W2127250306 cites W2057802357 @default.
W2127250306 cites W2064047737 @default.
W2127250306 cites W2065161508 @default.
W2127250306 cites W2068266595 @default.
W2127250306 cites W2072658670 @default.
W2127250306 cites W2076472978 @default.
W2127250306 cites W2081380119 @default.
W2127250306 cites W2082715840 @default.
W2127250306 cites W2083722672 @default.
W2127250306 cites W2086291162 @default.
W2127250306 cites W2114507741 @default.
W2127250306 cites W2133834722 @default.
W2127250306 cites W2949809125 @default.
W2127250306 cites W4232683100 @default.
W2127250306 cites W4246944130 @default.
W2127250306 cites W4368046459 @default.
W2127250306 doi "https://doi.org/10.1086/317784" @default.
W2127250306 hasPublicationYear "2000" @default.
W2127250306 type Work @default.
W2127250306 sameAs 2127250306 @default.
W2127250306 citedByCount "45" @default.
W2127250306 countsByYear W21272503062012 @default.
W2127250306 countsByYear W21272503062013 @default.
W2127250306 countsByYear W21272503062014 @default.
W2127250306 countsByYear W21272503062015 @default.
W2127250306 countsByYear W21272503062016 @default.
W2127250306 countsByYear W21272503062017 @default.
W2127250306 countsByYear W21272503062018 @default.
W2127250306 countsByYear W21272503062020 @default.
W2127250306 countsByYear W21272503062022 @default.
W2127250306 countsByYear W21272503062023 @default.
W2127250306 crossrefType "journal-article" @default.
W2127250306 hasAuthorship W2127250306A5037321777 @default.
W2127250306 hasAuthorship W2127250306A5089497818 @default.
W2127250306 hasBestOaLocation W21272503061 @default.
W2127250306 hasConcept C106933524 @default.
W2127250306 hasConcept C108884401 @default.
W2127250306 hasConcept C120665830 @default.
W2127250306 hasConcept C121332964 @default.
W2127250306 hasConcept C124967146 @default.
W2127250306 hasConcept C1276947 @default.
W2127250306 hasConcept C150846664 @default.
W2127250306 hasConcept C198785896 @default.
W2127250306 hasConcept C2776259265 @default.
W2127250306 hasConcept C2778861254 @default.
W2127250306 hasConcept C2780250205 @default.
W2127250306 hasConcept C2987592732 @default.
W2127250306 hasConcept C44870925 @default.
W2127250306 hasConcept C4839761 @default.
W2127250306 hasConcept C74902906 @default.
W2127250306 hasConceptScore W2127250306C106933524 @default.
W2127250306 hasConceptScore W2127250306C108884401 @default.
W2127250306 hasConceptScore W2127250306C120665830 @default.
W2127250306 hasConceptScore W2127250306C121332964 @default.
W2127250306 hasConceptScore W2127250306C124967146 @default.