TY - JOUR
T1 - Strange velocities in the equatorial ejecta of η Carinae
AU - Zethson, Torgil
AU - Johansson, Sveneric
AU - Davidson, Kris
AU - Humphreys, Roberta M.
AU - Ishibashi, Kazunori
AU - Ebbets, Dennis
PY - 1999/12/1
Y1 - 1999/12/1
N2 - We report HST/HRS observations of gas that appears to have been ejected in the equatorial zone of η Cannae. Some of the observed emission lines are produced by Fe II fluorescence processes, which, for unknown reasons, are uniquely intense near 77 Cannae. Surprisingly low velocities are found, most likely representing ejection events hundreds of years before the well-known Great Eruption of the 1840's. Alternative interpretations are possible with different geometrical assumptions, but they seem less straightforward and imply a different set of novel problems. The observed velocities less than 100 km s-1 must be hints concerning the physical nature of η Carinae; we propose one speculative scenario, combining the effects of rotation and a modified Eddington limit. The strong fluorescent emission lines occur only in the slowest gas, a result that we cannot yet explain. Altogether, these data pose a number of serious theoretical questions and clues, involving remarkably slow ejection speeds, formation of distinct dense condensations in the ejecta, and peculiarly intense radiative excitation of certain emission lines.
AB - We report HST/HRS observations of gas that appears to have been ejected in the equatorial zone of η Cannae. Some of the observed emission lines are produced by Fe II fluorescence processes, which, for unknown reasons, are uniquely intense near 77 Cannae. Surprisingly low velocities are found, most likely representing ejection events hundreds of years before the well-known Great Eruption of the 1840's. Alternative interpretations are possible with different geometrical assumptions, but they seem less straightforward and imply a different set of novel problems. The observed velocities less than 100 km s-1 must be hints concerning the physical nature of η Carinae; we propose one speculative scenario, combining the effects of rotation and a modified Eddington limit. The strong fluorescent emission lines occur only in the slowest gas, a result that we cannot yet explain. Altogether, these data pose a number of serious theoretical questions and clues, involving remarkably slow ejection speeds, formation of distinct dense condensations in the ejecta, and peculiarly intense radiative excitation of certain emission lines.
KW - ISM: jets and outflows
KW - Line: identification
KW - Stars: individual: η carinae
KW - Stars: variables: General
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M3 - Article
AN - SCOPUS:0242442234
SN - 0004-6361
VL - 344
SP - 211
EP - 220
JO - Astronomy and Astrophysics
JF - Astronomy and Astrophysics
IS - 1
ER -