scholarly journals Using infrared observations of circumstellar dust around evolved stars to test dust formation hypothesis

2011 ◽  
Author(s):  
Suklima Guha Niyogi
Keyword(s):  
Circumstellar Dust ◽  
Dust Formation ◽  
Infrared Observations ◽  
Evolved Stars

scholarly journals Optical/infrared observations of RV Tauri stars

1987 ◽  
Vol 122 ◽  
pp. 537-540
Author(s):  
M. J. Goldsmith ◽  
A. Evans ◽  
J. S. Albinson ◽  
M. F. Bode
Keyword(s):  
Dust Formation ◽  
Infrared Excess ◽  
Infrared Observations ◽  
Dust Shells ◽  
Discernible Difference

Optical/infrared observations of RV Tauri stars obtained at SAAO have allowed the natures of the dust shells around stars with infrared excess to be investigated. The data suggest that dust formation occurs sporadically and that some stars have multiple shells. There is no photometrically discernible difference between carbon- and oxygen-rich stars or their dust shells. There is some evidence that stars with higher metallicity have more dust.

scholarly journals Long Baseline Interferometric Observations of Circumstellar Dust Shells at 11 Microns

1994 ◽  
Vol 158 ◽  
pp. 383-386
Author(s):  
W.C. Danchi ◽  
L. Greenhill ◽  
M. Bester ◽  
C.G. Degiacomi ◽  
C.H. Townes ◽  
...  
Keyword(s):  
Spatial Distribution ◽  
Radiative Transfer ◽  
Circumstellar Dust ◽  
Dust Formation ◽  
Late Type ◽  
Dust Shells ◽  
Long Baseline ◽  
Higher Temperature ◽  
Single Baseline ◽  
Radiative Transfer Modeling

The spatial distribution of dust around a sample of well-known late-type stars has been studied with the Infrared Spatial Interferometer (ISI) located at Mt. Wilson. Currently operating with a single baseline as a heterodyne interferometer at 11.15 μm, the ISI has obtained visibility curves of these stars. Radiative transfer modeling of the visibility curves has yielded estimates of the inner radii of the dust shells, the optical depth at 11 μm, and the temperature of the dust at the inner radii. For stars in which the dust is resolved, estimates of the stellar diameter and temperature can also be made. Broadly speaking two classes of stars have been found. One class has inner radii of their dust shells very close to the photospheres of the stars themselves (3–5 stellar radii) and at a higher temperature (~ 1200 K) than previously measured. This class includes VY CMa, NML Tau, IRC +10216, and o Ceti. For the latter two the visibility curves change with the luminosity phase of the star and new dust appears to form at still smaller radii during minimum luminosity. The second class of stars has dust shells with substantially larger inner radii and very little dust close to the stars, and includes α Ori, α Sco, α Her, R Leo, and χ Cyg. This indicates sporadic production of dust and no dust formation within the last several decades.

Infrared Observations of Dust Formation and Coronal Emission in Nova Aquilae 1995

1996 ◽  
Vol 470 ◽  
pp. 577 ◽  
Author(s):  
C. G. Mason ◽  
R. D. Gehrz ◽  
Charles E. Woodward ◽  
J. B. Smilowitz ◽  
Matthew A. Greenhouse ◽  
...  
Keyword(s):  
Dust Formation ◽  
Coronal Emission ◽  
Infrared Observations

Mass Loss History of Evolved Stars (MLHES) Excavated by AKARI

2018 ◽  
Vol 14 (S343) ◽  
pp. 516-517
Author(s):  
Toshiya Ueta ◽  
Andrew J. Torres ◽  
Hideyuki Izumiura ◽  
Issei Yamamura
Keyword(s):  
Circumstellar Dust ◽  
Linear Distribution ◽  
Dust Shells ◽  
Evolved Stars ◽  
Dust Component ◽  
History Of ◽  
Infrared Astronomical Satellite ◽  
Cold Dust ◽  
Ir Emission ◽  
Astronomical Satellite

AbstractWe performed a far-IR imaging survey of the circumstellar dust shells of 144 evolved stars as a mission program of the AKARI infrared astronomical satellite. Our objectives were to characterize the far-IR surface brightness distributions of the cold dust component in the circumstellar dust shells. We found that (1) far-IR emission was detected from all but one object, (2) roughly 60–70 % of the target sources showed some extension, (3) 29 sources were newly resolved in the far-IR in the vicinity of the target sources, (4) the results of photometry measurements were reasonable with respect to the entries in the AKARI/FIS Bright Source Catalogue, and (5) an IR two-color diagram would place the target sources in a roughly linear distribution that may correlate with the age of the circumstellar dust shell.

scholarly journals Infrared Tracers of Mass-Loss Histories and Wind-ISM Interactions in Hot Star Nebulae

2007 ◽  
Vol 3 (S250) ◽  
pp. 361-366 ◽  
Author(s):  
Patrick Morris ◽  
Keyword(s):  
Infrared Spectroscopy ◽  
Mass Loss ◽  
Massive Stars ◽  
Dust Formation ◽  
Space Observatory ◽  
Infrared Space Observatory ◽  
Hot Stars ◽  
Infrared Observations ◽  
Open Time ◽  
Detailed Picture

AbstractInfrared observations of hot massive stars and their environments provide a detailed picture of mass loss histories, dust formation, and dynamical interactions with the local stellar medium that can be unique to the thermal regime. We have acquired new infrared spectroscopy and imaging with the sensitive instruments onboard the Spitzer Space Telescope in guaranteed and open time programs comprised of some of the best known examples of hot stars with circumstellar nebulae, supplementing with unpublished Infrared Space Observatory spectroscopy. Here wepresent highlights of our work on the environment around the extreme P Cygni-type star HDE316285, providing some defining characteristics of the star's evolution and interactions with the ISM at unprecented detail in the infrared.

scholarly journals “Thermal” SiO radio line emission towards M-type AGB stars: A probe of circumstellar dust formation and dynamics

2003 ◽  
Vol 411 (2) ◽  
pp. 123-147 ◽  
Author(s):  
D. González Delgado ◽  
H. Olofsson ◽  
F. Kerschbaum ◽  
F. L. Schöier ◽  
M. Lindqvist ◽  
...  
Keyword(s):  
Line Emission ◽  
Circumstellar Dust ◽  
Dust Formation ◽  
Agb Stars ◽  
Radio Line

scholarly journals Non-stoichiometric amorphous magnesium-iron silicates in circumstellar dust shells

2020 ◽  
Vol 644 ◽  
pp. A139
Author(s):  
Hans-Peter Gail ◽  
Akemi Tamanai ◽  
Annemarie Pucci ◽  
Ralf Dohmen
Keyword(s):  
Infrared Emission ◽  
Dust Particles ◽  
Circumstellar Dust ◽  
Expansion Velocity ◽  
Condensation Temperature ◽  
Dust Formation ◽  
Dust Grains ◽  
Dust Shell ◽  
Dust Shells ◽  
Stellar Outflows

Aims. We study the growth of dust in oxygen-rich stellar outflows in order to find out to which extent dust growth models can quantitatively reconcile with the quantities and nature of dust as derived from observations of the infrared emission from circumstellar dust shells. Methods. We use a set of nine well-observed massive supergiants with optically thin dust shells as testbeds because of the relatively simple properties of the outflows from massive supergiants, contrary to the case of AGB stars. Models of the infrared emission from their circumstellar dust shells are compared to their observed infrared spectra to derive the essential parameters that rule dust formation in the extended envelope of these stars. The results are compared with a model for silicate dust condensation. Results. For all objects, the infrared emission in the studied wavelength range, between 6 and 25 μm, can be reproduced rather well by a mixture of non-stoichiometric iron-bearing silicates, alumina, and metallic iron dust particles. For three objects (μ Cep, RW Cyg, and RS Per), the observed spectra can be sufficiently well reproduced by a stationary and (essentially) spherically symmetric outflow in the instantaneous condensation approximation. For these objects, the temperature at the onset of massive silicate dust growth is of the order of 920 K and the corresponding outflow velocity of the order of the sound velocity. This condensation temperature is only somewhat below the vapourisation temperature of the silicate dust and suggests that the silicate dust grows on the corundum dust grains that formed well inside of the silicate dust shell at a much higher temperature. The low expansion velocity at the inner edge of the silicate dust shell further suggests that, for these supergiants, the region inside the silicate dust shell has an only subsonic average expansion velocity, though a high degree of supersonic turbulence is indicated by the widths of spectral lines. Conclusions. Our results suggest that for the two major problems of dust formation in stellar outflows, that is (i) formation of seed nuclei and (ii) their growth to macroscopic dust grains, we are gradually coming close to a quantitative understanding of the second item.

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