Skip to main content Accessibility help
×
Hostname: page-component-78c5997874-xbtfd Total loading time: 0 Render date: 2024-11-19T04:35:37.479Z Has data issue: false hasContentIssue false

6 - Brown dwarfs: the bridge between stars and planets

Published online by Cambridge University Press:  10 August 2009

Rafael Rebolo
Affiliation:
Instituto de Astrofísica de Canarias, La Laguna, Spain
Hans Deeg
Affiliation:
Instituto de Astrofísica de Canarias, Tenerife
Juan Antonio Belmonte
Affiliation:
Instituto de Astrofísica de Canarias, Tenerife
Antonio Aparicio
Affiliation:
Instituto de Astrofísica de Canarias, Tenerife
Get access

Summary

Brown dwarfs are objects with masses, effective temperatures and luminosities intermediate between those of very low-mass stars and the most massive giant planets. In the last decade, numerous searches have revealed their ubiquitous presence in star forming regions and stellar clusters, orbiting stars and free-floating in the field. Hundreds of brown dwarfs have been identified via direct imaging techniques. Brown dwarfs appear to be as numerous as stars. Follow-up spectroscopic observations have been crucial for establishing their properties. New spectroscopic classes have been required for these objects. The L and T brown dwarfs form a unique laboratory in which to test substellar atmospheric and evolutionary models. We briefly review the photometric and spectroscopic properties, the multiplicity, mass function and possible formation scenarios of these substellar objects. Old low-mass brown dwarfs are expected to cool down to atmospheric temperatures similar to those of the planets in the Solar System. Their atmospheric properties will guide future planet searches.

Introduction

Brown dwarfs populate the mass domain between that of very low-mass stars and giant planets. They share some characteristics with stars and others with planets. Current models of stellar evolution predict a minimum mass of ∼ 73 MJup for stable hydrogen burning to take place in the interior of a solar metallicity self-gravitating object (e.g. Baraffe et al. 1998). This is the mass generally adopted in defining the frontier between stars and brown dwarfs for solar metallicity. Because of the lack of hydrogen burning, brown dwarfs progressively cool and dim.

Type
Chapter
Information
Extrasolar Planets , pp. 162 - 177
Publisher: Cambridge University Press
Print publication year: 2007

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Apai, D., Toth, L. V., Henning, T., Vavrek, R., Kovács, Z. & Lemke, D., 2005, A&A 433, L33.
Bailer-Jones, C. A. L. & Mundt, R., 2001, A&A 367, 218.
Baraffe, I., Chabrier, G., Allard, F. & Hauschildt, P. H., 1998, A&A 337, 403.
Barradoy Navascués, D., Osorio, Zapatero M. R., Martín, E. L., Béjar, V. J. S., Rebolo, R. & Mundt, R., 2002, A&A 393, L85.
Barradoy Navascués, D., Béjar, V. J. S., Mundt, R., Martín, E. L., Rebolo, R., Osorio, Zapatero M. R. & Bailer-Jones, C. A. L., 2003, A&A 404, 171.
Basri, G. & Martín, E. L., 1999, AJ 118, 2460.CrossRef
Basri, G., Marcy, G. W. & Graham, J. R., 1996, ApJ 458, 600.CrossRef
Bate, M. R. & Bonnell, I. A., 2005, MNRAS 356, 1201.CrossRef
Bate, M. R., Bonnell, I. A. & Bromm, V., 2003, MNRAS 339, 577.CrossRef
Béjar, V. J. S., Osorio, Zapatero M. R. & Rebolo, R., 1999, ApJ 521, 671.CrossRef
Béjar, V. J. S., Martín, E. L., Rebolo, R., et al., 2001, ApJ 556, 830.CrossRef
Bihain, G., Rebolo, R., Béjar, V. J. S., et al., 2006, A&A 458, 805.
Boss, A. P., 1997, Science 276, 1836.CrossRef
Boss, A. P., 2001, ApJ 551, L167.CrossRef
Bouvier, J., Stauffer, J. R., Martín, E. L., Barradoy Navascués, D., Wallace, B. & Béjar, V. J. S., 1998, A&A 336, 490.
Bouy, H., Brandner, W., Martín, E. L., et al., 2003, AJ 126, 1526.CrossRef
Burgasser, A. J., 2001, Ph. D. Thesis, Caltech.
Burgasser, A. J., Kirkpatrick, J. D., & Brown, M. E., 2002, ApJ 564, 421.CrossRef
Burgasser, A. J., Kirkpatrick, J. D., Brown, M. E., et al., 1999, ApJ 522, 65.CrossRef
Burgasser, A. J., Kirkpatrick, J. D., Cutri, R. M., et al., 2000, ApJL 531, 57.CrossRef
Burgasser, A. J., Kirkpatrick, J. D., Reid, I. N., Brown, M. E., Miskey, C. L. & Gizis, J. E., 2003, ApJ 586, 512.CrossRef
Burgasser, A. J., Kirkpatrick, J. D., McGobern, M. R., McLean, I. S., Prato, L. & Reid, I. N., 2004, ApJ 604, 827.CrossRef
Burgasser, A. J., Kirkpatrick, J. D. & Lowrance, P. J, 2005, AJ 129, 2849.CrossRef
Burrows, A., Marley, M., Hubbard, W. B., et al., 1997, ApJ 491, 856.CrossRef
Burrows, A., Hubbard, W. B., Lunine, J. I. & Liebert, J., 2001, Rev. Mod. Phys. 73, 719.CrossRef
Caballero, J. A., Béjar, V. J. S., Rebolo, R. & Osorio, Zapatero M. R., 2004, A&A 424, 857.
Caballero, J. A., Martín, E. L., Dobbie, D. D., et al., 2006, A&A 460, 635.
Cameron, A. G. W., 1978, Earth, Moon, Planets 18, 5.CrossRef
Chabrier, G. & Baraffe, I., 2000, ARAA 38, 337.CrossRef
Chabrier, G., Baraffe, I., Allard, F. & Hauschildt, P. H., 2000, ApJ 542, 464.CrossRef
Chauvin, G., Lagrange, A.-M., Dumas, C., et al., 2004, A&A 425, L29.
Chauvin, G., Lagrange, A.-M., Zuckerman, B., et al., 2005, A&A 438, L29.
Close, L. M., Siegler, N., Freed, M. & Biller, B., 2003, ApJ 587, 407.CrossRef
Comerón, F., Rieke, G. H., Claes, P., Torra, J. & Laureijs, R. J., 1998, A&A 335, 522.
Comerón, F., Neuhäuser, R. & Kaas, A. A., 2000, A&A 359, 269.
Cuby, J. G., Saracco, P., Moorwood, A. F., D'Odorico, S., Lidman, C., Comerón, F. & Spyromilio, J., 1999, A&AL 349, 41.
Dahn, C. C., Harris, H. C. & Vrba, F. J., 2002, AJ 124, 1170.CrossRef
Delfosse, X., Tinney, C. G., Forveille, T., et al., 1997, A&AL 327, 25.
Duchene, G., Bouvier, J., Bontemps, S., André, P. & Motte, F., 2004, A&A 427, 651.
Duquennoy, A. & Mayor, M., 1991, A&A 248, 485.
Endl, M., Hatzes, A. P., Cochran, W. D., et al., 2004, ApJL 611, 1121.CrossRef
Fischer, D. A. & Marcy, G. W., 1992, ApJ 396, 178.CrossRef
Forveille, T., Ségransan, D., Delorme, P.et al., 2004, A&AL 427, 1.
Freed, M., Close, L. M. & Siegler, N., 2003, ApJ 584, 453.CrossRef
Gizis, J. E., Reid, I., Knapp, G. R., Liebert, J., Kirkpatrick, J. D., Koerner, D. W. & Burgasser, A., 2003, AJ 125, 3302.CrossRef
Guenther, E. M. & Wuchterl, G., 2003, A&A 401, 677.
Haisch, K. E., Greene, T. P., Barsony, M. & Stahler, S. W., 2004, AJ 127, 1747.CrossRef
Hayashi, C. & Nakano, T., 1963, Prog. Theor. Phys. 30, 460.CrossRef
Jameson, R. F. & Skillen, I., 1989, MNRAS 239, 247.CrossRef
Jameson, R. F., Dobbie, P. D., Hodgkin, S. T. & Pinfield, D. J., 2002, MNRAS 335, 853.CrossRef
Jayawardhana, R., Mohanty, S. & Basri, G., 2002, ApJ 578, L141.CrossRef
Jayawardhana, R., Ardila, D. R., Stelzer, B. & Haisch, K. E. Jr., 2003, AJ 126, 1515.CrossRef
Jiang, I.-G., Laughlin, G. & Lin, D. N. C., 2004, Rev. Mex. A&A 21, 227.
Joergens, V., Guenther, E.Neuhäuser, R., et al., 2001, Astronomische Gesellschaft Abstract Series 18, 402.
Kenyon, M. J., Jeffries, R. D., Naylor, T., Oliveira, J. M. & Maxted, P. F. L., 2005, MNRAS 356, 89.CrossRef
Kirkpatrick, J. D., Reid, I. N., Liebert, J., et al., 1999, ApJ 519, 802.CrossRef
Klein, R., Apai, D., Pascucci, I., Henning, Th. & Waters, L. B. F., 2003, ApJ 593, L57.CrossRef
Kumar, S. K., 1963, ApJ 137, 1121.CrossRef
Leggett, S. K., Geballe, T. R., Fan, X., et al., 2000, ApJ 519, 802.
Liu, M. C. & Leggett, S. K., 2005, ApJ 634, 616.CrossRef
Low, C. & Lynden-Bell, D., 1976, MNRAS 176, 367.CrossRef
Lucas, P. W. & Roche, P. F., 2000, MNRAS 314, 858.CrossRef
Luhman, K. L., 2004a, ApJL 614, 398.CrossRef
, K. L., 2004b, ApJ 617, 1216.CrossRef
Luhman, K. L., Rieke, G. H. & Young, E. T., 2000, ApJL 540, 1016.CrossRef
Magazzú, A., Martín, E. L. & Rebolo, R., 1993, ApJL 404, 17.CrossRef
Marcy, G. & Butler, P., 2000, PASP 112, 137.CrossRef
Martín, E. L., Rebolo, R. & Magazzú, A., 1994, ApJ 436, 262.CrossRef
Martín, E. L., Basri, G., Delfosse, X. & Forveille, T., 1997, A&AL 327, 29.
Martín, E. L., Basri, G., Zapatero Osorio, M. R., Rebolo, R. & García López, R. J., 1998, ApJL 507, 41.CrossRef
Martín, E. L., Delfosse, X., Basri, G., Goldman, B., Forveille, T. & Osorio, Zapatero M. R., 1999, AJ 118, 2466.CrossRef
Martín, E. L., Osorio, Zapatero M. R., Barradoy Navascués, D., Béjar, V. J. S. & Rebolo, R., 2001, ApJ 558, L117.CrossRef
Martín, E. L., Barradoy Navascués, D., Baraffe, I., Bouy, H. & Dahm, S., 2003, ApJ 594, 525.CrossRef
Masciadri, E., Brandner, W., Bouy, H., Lenzen, R., Lagrange, A. M. & Lacombe, F., 2003, A&A 411, 157.
Matzner, C. D. & Levin, Y., 2005, ApJ 628, 817.CrossRef
Maxted, P. F. L. & Jeffreis, R. D., 2005, MNRAS 362, L45.CrossRef
Mayer, L., Quinn, T., Waldsley, J. & Stadel, J., 2002, Science 298, 1756.CrossRef
McCarthy, C. & Zuckerman, B., 2004, AJ 127, 2871.CrossRef
McCaughrean, M. J., Close, L. M., Scholz, R. D., et al., 2004, A&A 413, 1029.
Mohanty, S., Jayawardhana, R., Natta, A., Fujiyoshi, T., Tamura, M. & Barradoy Navascués, D., 2004, ApJ 609, L33.CrossRef
Moraux, E., Bouvier, J., Stauffer, J. R. & Cuillandre, J.-C., 2003, A&A 400, 891.
Muench, A. A., Alves, J., Lada, C. J. & Lada, E. A., 2001, ApJ 558, L51.CrossRef
Muzerolle, J., Briceño, C., Calvet, N., et al., 2000, ApJ 545, L141.CrossRef
Nagashima, C., Dobbie, P. D., Nagayama, T., et al., 2003, MNRAS 343, 1263.CrossRef
Nakajima, T., Oppenheimer, B. R., Kulkarni, S. R., Golimowski, D. A., Matthews, K. & Durrance, S. T., 1995, Nature 378, 463.CrossRef
Nakajima, T., Tsuji, T. & Yanagisawa, K., 2004, ApJ 607, 499.CrossRef
Natta, A. & Testi, L., 2001, A&A 376, L22.
Natta, A., Terti, L., Comerón, F., et al., 2002, A&A 393, 597.
Natta, A., Testi, L., Muzerolle, J., Randich, S., Comerón, F. & Persi, P., 2004, A&A 424, 603.
Neuhäuser, R., Guenther, E. W., Wuchterl, G., Mugrauer, M., Bedalov, A. & Hauschildt, P. H., 2005, A&A 435, L13.
Oppenheimer, B. R., Kulkarni, S. R., Matthews, K. & Nakajima, T., 1995, Science 270, 1478.CrossRef
Padoan, P. & Nordlund, A., 2004, ApJ 617, 559.CrossRef
Pickett, B. K., Cassen, P., Durisen, R. H. & Link, R., 2000, ApJ 530, 1160.CrossRef
Pinfield, D. J., Dobbie, P. D., Jameson, R. F., Steele, I. A., Jones, H. R. A. & Katsiyannis, A. C., 2003, MNRAS 342, 1241.CrossRef
Pravdo, S. H., Shaklan, S. B. & Lloyd, J., 2005, ApJ 630, 528.CrossRef
Rafikov, R. R., 2005, ApJL 621, 69.CrossRef
Rebolo, R., Martín, E. L. & Magazzú, A., 1992, ApJL 389, 83.CrossRef
Rebolo, R., Osorio, Zapatero M. R. & Martín, E. L., 1995, Nature 377, 129.CrossRef
Rebolo, R., Martín, E. L., Basri, G., Marcy, G. & Osorio, Zapatero M.., 1996, ApJL 469, 53.CrossRef
Rebolo, R., Osorio, Zapatero M. R., Madruga, S., Béjar, V. J. S., Arribas, S. & Licandro, J., 1998, Science 282, 1309.CrossRef
Rees, M., 1976, MNRAS 176, 483.CrossRef
Reid, I. N., Kirkpatrick, J. D., Liebert, J., et al., 1999, ApJ 521, 613.CrossRef
Reipurth, B. & Clarke, C., 2001, AJ 122, 432.CrossRef
Rieke, G. H. & Rieke, M. J., 1990, ApJL 362, 21.CrossRef
Ruiz, M. T., Leggett, S. K. & Allard, F., 1997, ApJL 491, 107.CrossRef
Scholz, , A. & Eislöffel, J., 2004, A&A 419, 249.
Scholz, R. D. & Eislöfel, J., 2005, A&A 429, 1007.
Scholz, R. D., McCaughrean, M. J., Lodieu, N. & Kuhlbrodt, B., 2003, A&AL 398, 29.
Stauffer, J., Hamilton, D., Probst, R., Rieke, G. & Mateo, M., 1989, ApJL 344, 21.CrossRef
Stauffer, J., Herter, T., Hamilton, D., Rieke, G. H., Rieke, M. J., Probst, R. & Forrest, W., 1991, ApJL 367, 23.CrossRef
Stauffer, J., Liebert, J., Giampapa, M., Macintosh, B., Reid, N. & Hamilton, D., 1994, AJ 108, 160.CrossRef
Tsuji, T., 1995, In The Bottom of the Main Sequence and Beyond, ed. Tinney, C. G., ESO Astrophysics Symposium, Garching, Heidelberg: Springer-Verlag, p. 45.CrossRefGoogle Scholar
Tsuji, T. & Nakajima, T., 2003, ApJ 585, L151.CrossRef
Walker, C., Wood, K., Lada, C. J., et al., 2004, MNRAS 351, 607.CrossRef
Whitworth, A. P. & Zinnecker, H., 2004, A&A 427, 299.
Williams, D. M., Comerón, F., Rieke, G. H. & Rieke, M. J., 1995, ApJ 454, 144.CrossRef
Osorio, Zapatero M. R., Rebolo, R., Martín, E. L., et al., 1997, ApJL 491, 81.CrossRef
Osorio, Zapatero M. R., Béjar, V. J. S.., Martín, E. L., Rebolo, R., Barradoy Navascués, D., Bailer-Jones, C. A. L. & Mundt, R., 2000, Science 290, 103.CrossRef
Osorio, Zapatero M. R., Béjar, V. J. S., Martín, E. L., et al., 2002, ApJL 578, 536.CrossRef
Osorio, Zapatero M. R., Lane, B. F., Pavlenko, Ya., Martín, E. L., Britton, M. & Kulkarni, S. R., 2004, ApJ 615, 958.CrossRef
Zuckerman, B. & Becklin, E. E., 1992, ApJ 386, 260.CrossRef

Save book to Kindle

To save this book to your Kindle, first ensure coreplatform@cambridge.org is added to your Approved Personal Document E-mail List under your Personal Document Settings on the Manage Your Content and Devices page of your Amazon account. Then enter the ‘name’ part of your Kindle email address below. Find out more about saving to your Kindle.

Note you can select to save to either the @free.kindle.com or @kindle.com variations. ‘@free.kindle.com’ emails are free but can only be saved to your device when it is connected to wi-fi. ‘@kindle.com’ emails can be delivered even when you are not connected to wi-fi, but note that service fees apply.

Find out more about the Kindle Personal Document Service.

Available formats
×

Save book to Dropbox

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Dropbox.

Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

Available formats
×