Physics
Scientific paper
Aug 2010
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010noao.prop..240g&link_type=abstract
NOAO Proposal ID #2010B-0240
Physics
Scientific paper
We request Michelle time to observe 9 oxygen-rich asymptotic giant branch (AGB) stars. Our recent study of O-rich AGB star, T Cep suggests that dust are "crystalline" in nature and dominated by iron-rich silicates minerals. Both of these findings contradict the currently favored dust formation hypotheses. Our target objects are nearby and the dust shells should be spatially resolved. Spatially resolved spectroscopy will allow us to observe where within the dust shell different minerals can form. Spatial resolution is necessary in order to understand the dust condensation sequence, which in turn allow us to test theories that link pulsation, stellar variability and dust formation. Spatial resolution is essential to determine the true carrier of observed spectral features around O-rich AGB stars. Using spatially resolved spectroscopy we will observe how the dust features changes with distance from central star. In this way we will be able to test dust condensation hypotheses and gain a better understanding of the formation mechanisms of dust around O-rich AGB stars.
Guha Niyogi Suklima
Speck Angela
Volk Kevin
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