===================================================================== ==> in this proposal, more time is being requested for cskinner.co_obs ===================================================================== in this proposal, we proposed high spectral resolution observations of high level co emission lines in a sample of evolved stars, in order to study the evolution of the winds and circumstellar envelopes from the agb to the pn phases. we will determine the thermal structure of the circumstellar gas shells, as well as the mass-loss rates during the superwind phase. the sample of objects chosen for the study includes agb stars with low, intermediate and very high mass-loss rates, post-agb stars with low, intermediate and high central star temperatures, and low- and high-excitation pn. both o-rich and c-rich examples of each type are included. the co observations will be modelled using a full radiative transfer code in the comoving frame in the case of agb stars and the coolest post-agb stars, whilst for the post-agb stars and pn we will use modified codes originally written for the study of photodissociation regions which we have already used succesfully to model kao observations of co in a few of the brightest of such sources. the results will allow us to follow the evolution of physical conditions (gas temperature and density) in the hottest, densest parts of the circumstellar envelopes, close to the central stars. we have not yet received any data from this proposal. however, we do have grating spectra of a number of agb stars showing that high rotational lines of co are indeed present at strengths as high as we predicted. since our brightest target, irc+10216, was not observed before it disappeared from iso.s view, and our grating spectra confirm the presence of co lines in agb star spectra, we propose to add a three agb stars to our small survey. we also wish to add one post-agb star, crl618, which would not originally have been observable from an autumn launch, but will reappear towards the end of the mission because of the longer than expected life.
Instrument
LWS04
Temporal Coverage
1997-07-25T11:40:16Z/1998-01-05T19:10:31Z
Version
1.0
Mission Description
The Infrared Space Observatory (ISO) was the worlds first true orbiting infrared observatory. Equipped with four highly-sophisticated and versatile scientific instruments, it was launched by Ariane in November 1995 and provided astronomers world-wide with a facility of unprecedented sensitivity and capabilities for a detailed exploration of the Universe at infrared wavelengths.
European Space Agency, SKINNER et al., 1999, 'CO OBSERVATIONS OF MASS-LOSS IN LOW-MASS POST-MAIN SEQUENCE STARS', 1.0, European Space Agency, https://doi.org/10.5270/esa-imfgztj