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A model of the 8-25 micron point source infrared sky (1990)

Walker, Helen J. ; Wainscoat, Richard J. ; Cohen, Martin ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: A model is developed that permits the representation of the Galactic disk and bulge, the molecular ring, extragalactic sky, and other Galactic structures in terms of the IR point-source sky. Full characterization is achieved for up to 87 types of Galactic sources in terms of scale heights and absolute magnitudes, and the model is guided by a parallel Monte Carlo simulation of the Galaxy at 12 microns. The model predicts differential and cumulative IR source counts for all bandpasses in the IRAS ranges and can therefore be employed to predict the character of the point-source sky related to IR space observations.

Keywords: ASTROPHYSICS

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IRAS colors of carbon stars - An optical spectroscopic test (1989)

Walker, Helen J. ; Schwartz, Deborah E. ; Wainscoat, Richard J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: Optical spectra are obtained of 57 photographic counterparts to IRAS sources not previously studied spectroscopically, and expected on the basis of their IRAS colors to be M or C type stars. Confirmed carbon stars are found only in a restricted range of 12-25 index, and constitute a striking 'vertical' sequence in the 12-25-60 micron color-color diagram. This sequence is in accord with evolutionary models for AGB stars that convert M into C stars by dredge-up, and follow loops in the color-color plane. Optically visible and optically invisible carbon stars occupy different color-color locations consistent with their representations of different evolutionary states in the life of relatively low-mass stars.

Keywords: ASTROPHYSICS

Type: Astronomical Journal (ISSN 0004-6256); 97; 1759-176

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3

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A model of the 8-25 micron point source infrared sky (1992)

Schwartz, Deborah E. ; Cohen, Martin ; Walker, Helen J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: We present a detailed model for the IR point-source sky that comprises geometrically and physically realistic representations of the Galactic disk, bulge, stellar halo, spiral arms (including the 'local arm'), molecular ring, and the extragalactic sky. We represent each of the distinct Galactic components by up to 87 types of Galactic source, each fully characterized by scale heights, space densities, and absolute magnitudes at BVJHK, 12, and 25 microns. The model is guided by a parallel Monte Carlo simulation of the Galaxy at 12 microns. The content of our Galactic source table constitutes a good match to the 12 micron luminosity function in the simulation, as well as to the luminosity functions at V and K. We are able to produce differential and cumulative IR source counts for any bandpass lying fully within the IRAS Low-Resolution Spectrometer's range (7.7-22.7 microns as well as for the IRAS 12 and 25 micron bands. These source counts match the IRAS observations well. The model can be used to predict the character of the point source sky expected for observations from IR space experiments.

Keywords: ASTROPHYSICS

Type: Astrophysical Journal Supplement Series (ISSN 0067-0049); 83; 1; p. 111-146.

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4

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A practical approach to the classification of IRAS sources using infrared colors alone (1989)

Cohen, Martin ; Wainscoat, Richard J. ; Walker, Helen J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: Zones of the IRAS color-color planes in which a variety of different types of known source occur, have been defined for the purpose of obtaining representative IRAS colors for them. There is considerable overlap between many of these zones, rendering a unique classification difficult on the basis of IRAS colors alone, although galactic latitude can resolve ambiguities between galactic and extragalactic populations. The color dependence of these zones on the presence of spectral emission/absorption features and on the spatial extent of the sources has been investigated. It is found that silicate emission features do not significantly influence the IRAS colors. Planetary nebulae may show a dependence of color on the presence of atomic or molecular features in emission, although the dominant cause of this effect may be the underlying red continua of nebulae with strong atomic lines. Only small shifts are detected in the colors of individual spatially extended sources when total flux measurements are substituted for point-source measurements.

Keywords: ASTROPHYSICS

Type: Astronomical Journal (ISSN 0004-6256); 98; 2163-218

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