Browse > Article
http://dx.doi.org/10.5303/JKAS.2013.46.6.235

MASS-LOSS RATES OF OH/IR STARS  

Suh, Kyung-Won (Department of Astronomy and Space Science, Chungbuk National University)
Kwon, Young-Joo (Department of Astronomy and Space Science, Chungbuk National University)
Publication Information
Journal of The Korean Astronomical Society / v.46, no.6, 2013 , pp. 235-242 More about this Journal
Abstract
We compare mass-loss rates of OH/IR stars obtained from radio observations with those derived from the dust radiative transfer models and IR observations. We collect radio observational data of OH maser and CO line emission sources for a sample of 1533 OH/IR stars listed in Suh & Kwon (2011). For 1259 OH maser, 76 CO(J=1-0), and 55 CO(J=2-1) emission sources, we compile data of the expansion velocity and mass-loss rate. We use a dust radiative transfer model for the dust shell to calculate the mass-loss rate as well as the IR color indices. The observed mass-loss rates are in the range predicted by the theoretical dust shell models corresponding to $\dot{M}=10^{-8}M_{\odot}/yr-10^{-4}M_{\odot}/yr$. We find that the dust model using a simple mixture of amorphous silicate and amorphous $Al_2O_3$ (20% by mass) grains can explain the observations fairly well. The results indicate that the dust radiative transfer models for IR observations generally agree with the radio observations. For high mass-loss rate OH/IR stars, the mass-loss rates obtained from radio observations are underestimated compared to the mass-loss rates derived from the dust shell models. This could be because photon momentum transfer to the gas shell is not possible for the physical condition of high mass-loss rates. Alternative explanations could be the effects of different dust-to-gas ratios and/or a superwind.
Keywords
stars: AGB stars; infrared: stars; circumstellar matter; masers; dust: extinction;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Wood, P. R. 1990, in From Miras to Planetary Nebulae : Which Path Evolution, ed. M. O. Minnessier & A. Omont (Gif sur Yvette: Editions Frontiµeres), 67
2 Zhang, H.-J., Zhou, J.-J., Dong, G.-L., Esimbek, J., & Mu, J.-M. 2010, The Properties of a Large Sample of OH/IR Stars, S Stars and C-Rich AGB Stars, ApSS, 330, 23
3 Le Squeren, A. M., Sivagnanam, P., Dennefeld, M., & David, P. 1992, A Complete Survey of OH/IR Ob- jects from the IRAS LRS Sources within a Domain of the Color Diagram, A&A, 254, 133
4 Lewis, B. M. 1994, Supplement to the Arecibo 1612 MHz Survey of Color-Selected IRAS Sources, ApJS, 93, 549   DOI
5 Lewis, B. M., Eder, J., & Terzian, Y. 1990, New OH/IR Stars from Color-Selected IRAS Sources. II - An Un- biased 1612 MHz Survey, ApJ, 362, 634   DOI
6 Loup, C., Forveille, T., Omont, A., & Paul, J. F. 1993, CO and HCN Observations of Circumstellar Envelopes. A Catalogue - Mass Loss Rates and Distributions, A&AS, 99, 291
7 Nyman, L.-A., Booth, R. S., Carlstrom, U., Habing, H. J., Heske, A., Sahai, R., Stark, R., van der Veen, W. E. J. C., & Winnberg, A. 1992, A Survey of Circumstellar CO Emission from a Sample of IRAS Point Sources, A&AS, 93, 121
8 Olofsson, H., Eriksson, K., Gustafsson, B., & Carl- strom, U. 1993, A Study of Circumstellar Envelopes around Bright Carbon Stars. I - Structure, Kinematics, and Mass-Loss Rate, ApJS, 87, 267   DOI
9 Renzini, A. 1981, in Physical Processes in Red Giants, ed. I. Iben & A. Renzini (Dordrecht: Reidel), 431
10 Sevenster, M. N., Chapman, J. M., Habing, H. J., Killeen, N. E. B., & Lindqvist, M. 1997a, The ATCA/VLA OH 1612 MHz Survey. I. Observations of the Galactic Bulge Region, A&AS, 122, 79   DOI   ScienceOn
11 Sevenster, M. N., Chapman, J. M., Habing, H. J., Killeen, N. E. B., & Lindqvist, M. 1997b, The ATCA/VLA OH 1612 MHz Survey. II. Observations of the Galactic Disk Region, A&AS, 124, 509   DOI   ScienceOn
12 Sevenster, M. N., van Langevelde, H. J., Moody, R. A., Chapman, J. M., Habing, H. J., & Killeen, N. E. B. 2001, The ATCA/VLA OH 1612 MHz Survey. III. Observations of the Northern Galactic Plane, A&A, 366, 481   DOI   ScienceOn
13 Sivagnanam, P., Le Squeren, A. M., Minh, F. T., & Braz, M. A. 1990, An OH Survey of Mira-Like Objects from the IRAS Point Source Catalog, A&A, 233, 112
14 Stefen, M., Szczerba, R., Men'schikov, A., et al. 1997, Hydrodynamical Models and Synthetic Spectra of Circumstellar Dust Shells around AGB Stars, A&AS, 126, 39   DOI   ScienceOn
15 Suh, K.-W. 1999, Optical Properties of the Silicate Dust Grains in the Envelopes around Asymptotic Giant Branch Stars, MNRAS, 304, 389   DOI   ScienceOn
16 Suh, K.-W. 2004, Pulsation Phase-Dependent Dust Shell Models for Oxygen-Rich Asymptotic Giant Branch Stars, ApJ, 615, 485   DOI   ScienceOn
17 Suh, K.-W., & Jones, T. J. 1997, Superwind Models for the Dust Shells around OH/IR Stars, ApJ, 479, 918   DOI   ScienceOn
18 Suh, K.-W., & Kwon, Y.-J. 2011, Infrared Two-Colour Diagrams for AGB Stars Using AKARI, MSX, IRAS and Near-Infrared Data, MNRAS, 417, 3047   DOI   ScienceOn
19 Suh, K.-W., & Kwon, Y.-J. 2013, Water Ice in High Mass-Loss Rate OH/IR Stars, ApJ, 762, 113.   DOI
20 Chengalur, J. N., Lewis, B. M., Eder, J., & Terzian, Y. 1993, New OH/IR Stars from Color-Selected IRAS Sources. 3: A Complete Survey, ApJSS, 89, 189   DOI
21 Chesneau, O., Verhoelst, T., Lopez, B., et al. 2005, The Mid-IR Spatially Resolved Environment of OH 26.5+0.6 at Maximum Luminosity, A&A, 435, 563   DOI   ScienceOn
22 David, P., Le Squeren, A. M., & Sivagnanam, P. 1993, An OH Satellite Line Maser Survey of Cool IRAS Sources and Circumstellar Envelope Evolution, A&A, 277, 453
23 De Beck, E., Decin, L., de Koter, A., Justtanont, K., Verhoelst, T., Kemper, F., & Menten, K. M. 2010, Probing the Mass-Loss History of AGB and Red Supergiant Stars from CO Rotational Line Profiles. II. CO Line Survey of Evolved Stars: Derivation of Mass-Loss Rate Formulae, A&A, 523, 18   DOI   ScienceOn
24 Draine, B. T., Dale, D. A., Bendo, G., et al. 2007, Dust Masses, PAH Abundances, and Starlight Intensities in the SINGS Galaxy Sample, ApJ, 663, 866   DOI
25 Eder, J., Lewis, B. M., & Terzian, Y. 1988, New OH/IR Stars from Color-Selected IRAS Sources - 1612 MHz Observations, ApJS, 66, 183   DOI
26 Begemann, B., Dorschner, J., Henning, T., Mutschke, H., Guertler, J., Koempe, C., & Nass, R. 1997, Alu- minum Oxide and the Opacity of Oxygen-Rich Cir- cumstellar Dust in the 12-17 Micron Range, ApJ, 476, 199   DOI
27 Chen, P. S., Szczerba, R., Kwok, S., & Volk, K. 2001, Properties of OH/IR Stars with IRAS LRS Spectra, A&A, 368, 1006   DOI   ScienceOn
28 Fong, D., Justtanont, K., Meixner, M., & Campbell, M. T. 2002, Imaging the Circumstellar Envelope of OH 26.5+0.6, A&A, 396, 851
29 Groenewegen, M. A. T., & de Jong, T. 1998, CO Observations and Mass Loss of MS- and S-Stars, A&A, 337, 797
30 Groenewegen, M. A. T., Baas, F., Blommaert, J. A. D. L., Stehle, R., Josselin, E., & Tilanus, R. P. J. 1999, Millimeter and Some Near Infra-Red Observations of Short-Period Miras and Other AGB Stars, A&AS, 140, 197   DOI   ScienceOn
31 Iben, I. Jr. 1981, The Carbon Star Mystery - Why Do the Low Mass Ones Become Such, and Where Have All the High Mass Ones Gone, ApJ, 246, 278   DOI
32 Ivezic, A., & Elitzur, M. 1997, Self-Similarity and Scaling Behaviour of Infrared Emission from Radiatively Heated Dust - I. Theory, MNRAS, 287, 799   DOI   ScienceOn
33 Knapp, G. R., Young, K., Lee, E., & Jorissen, A. 1998, Multiple Molecular Winds in Evolved Stars. I. A Survey of CO (2-1) and CO (3-2) Emission from 45 Nearby AGB Stars, ApJS, 117, 209   DOI   ScienceOn
34 Kemper, F., Stark, R., Justtanont, K., de Koter, A., Tielens, A. G. G. M., Waters, L. B. F. M., Cami, J., & Dijkstra, C. 2003, Mass Loss and Rotational CO Emission from AGB Stars, A&A, 407, 609   DOI   ScienceOn
35 Kwok, S. 1975, Radiation Pressure on Grains as a Mechanism for Mass Loss in Red Giants, ApJ, 198, 583   DOI
36 Kwon, Y.-J., & Suh, K.-W. 2012, Properties of OH, SiO, and $H_2O$ Maser Emission in O-Rich AGB Stars, JKAS, 45, 139
37 te Lintel Hekkert, P., Caswell, J. L., Habing, H. J., Haynes, R. F., Haynes, R. F., & Norris, R. P. 1991, 1612 MHz OH Survey of IRAS Point Sources. I - Observations Made at Dwingeloo, Effelsberg and Parkes, A&AS, 90, 327
38 Vassiliadis, E., & Wood, P. R. 1993, Evolution of Low- and Intermediate-Mass Stars to the End of the Asymptotic Giant Branch with Mass Loss, ApJ, 413, 641   DOI   ScienceOn
39 Winters, J. M., Le Bertre, T., Jeong, K. S., Nyman, L.-A., & Epchtein, N. 2003, Mass-Loss from Dusty, Low Outfiow-Velocity AGB Stars. I. Wind Structure and Mass-Loss Rates, A&A, 409, 715   DOI   ScienceOn