An early extrasolar planetary system revealed by planetesimal belts in β Pictoris (original) (raw)

• Letter
• Published: 07 October 2004
• Hirokazu Kataza2,
• Mitsuhiko Honda3,
• Takuya Yamashita4,
• Takashi Onaka3,
• Jun-ichi Watanabe5,
• Takashi Miyata6,
• Shigeyuki Sako6,
• Takuya Fujiyoshi4 &
• …
• Itsuki Sakon3

Nature volume 431, pages 660–663 (2004)Cite this article

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Abstract

β Pictoris (β Pic) is a main-sequence star with an edge-on dust disk1,2,3 that might represent a state of the early Solar System. The dust does not seem to be a remnant from the original protoplanetary disk, but rather is thought to have been generated from large bodies like planetesimals and/or comets4,5. The history and composition of the parent bodies can therefore be revealed by determining the spatial distribution, grain size, composition and crystallinity of the dust through high-resolution mid-infrared observations. Here we report that the sub-micrometre amorphous silicate grains around β Pic have peaks in their distribution around 6, 16 and 30 au (1 au is the Sun–Earth distance), whereas the crystalline and micrometre-sized amorphous silicate grains are concentrated in the disk centre. As sub-micrometre grains are blown quickly out from the system by radiation pressure from the central star, the peaks indicate the locations of ongoing dust replenishment, which originates from ring-like distributions of planetesimals or ‘planetesimal belts’.

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References

1. Gillett, F. C. in Light on Dark Matter (ed. Israel, F. P.) 61–69 (Reidel, Dordrecht, 1986)
   Book Google Scholar
2. Smith, B. A. & Terrile, R. J. A circumstellar disk around Beta Pictoris. Science 226, 1421–1424 (1984)
   Article ADS CAS Google Scholar
3. Pantin, E., Lagage, P. O. & Artymowicz, P. Mid-infrared images and models of the beta Pictoris dust disk. Astron. Astrophys. 327, 1123–1136 (1997)
   ADS Google Scholar
4. Backman, D. E. & Paresce, F. in Protostars and Planets III (eds Levy, E. H. & Lunine, J. I.) 1253–1304 (Univ. Arizona Press, Tucson, 1993)
   Google Scholar
5. Lecavelier des Etangs, A., Vidal-Madjar, A. & Ferlet, R. Dust distribution in disks supplied by small bodies: is the β Pictoris disk a gigantic multi-cometary tail? Astron. Astrophys. 307, 542–550 (1996)
   ADS CAS Google Scholar
6. Crifo, F., Vidal-Madjar, A., Lallement, R., Ferlet, R. & Gerbaldi, M. β Pictoris revisited by Hipparcos. Star properties. Astron. Astrophys. 320, L29–L32 (1997)
   ADS Google Scholar
7. Barrado y Navascues, D., Stauffer, J. R., Song, I. & Caillault, J.-P. The age of beta Pictoris. Astrophys. J. 520, L123–L126 (1999)
   Article ADS Google Scholar
8. Wahhaj, Z. et al. The inner rings of β Pictoris. Astrophys. J. 584, L27–L31 (2003)
   Article ADS Google Scholar
9. Malfait, K. et al. The spectrum of the young star HD100546 observed with the Infrared Space Observatory. Astron. Astrophys. 332, L25–L28 (1998)
   ADS Google Scholar
10. Honda, M. et al. Detection of crystalline silicates around T Tauri star Hen3–600A. Astrophys. J. 585, L59–L63 (2003)
    Article ADS CAS Google Scholar
11. Campins, H. & Ryan, E. V. The identification of crystalline olivine in cometary silicates. Astrophys. J. 341, 1059–1066 (1989)
    Article ADS CAS Google Scholar
12. Knacke, R. F. et al. The silicates in the disk of beta Pictoris. Astrophys. J. 418, 440–450 (1993)
    Article ADS CAS Google Scholar
13. Hallenbeck, S. L., Nuth, J. A. III & Nelson, R. N. Evolving optical properties of annealing silicate grains: from amorphous condensate to crystalline mineral. Astrophys. J. 535, 247–255 (2000)
    Article ADS CAS Google Scholar
14. Kataza, H. et al. COMICS: the cooled mid-infrared camera and spectrometer for the Subaru telescope. Proc. SPIE 4008, 1144–1152 (2000)
    Article ADS Google Scholar
15. Okamoto, Y. K. et al. Improved performances and capabilities of the Cooled Mid-Infrared Camera and Spectrometer (COMICS) for the Subaru Telescope. Proc. SPIE 4841, 169–180 (2003)
    Article ADS Google Scholar
16. Sako, S. et al. Improvements in operating the Raytheon 320x240 pixel Si:As impurity band conduction mid-infrared array. Publ. Astron. Soc. Pacif. 115, 1407–1418 (2003)
    Article ADS Google Scholar
17. Koike, C. et al. Compositional dependence of infrared absorption spectra of crystalline silicate II. Natural and synthetic olivines. Astron. Astrophys. 399, 1101–1107 (2003)
    Article ADS CAS Google Scholar
18. Dorschner, J., Begemann, B., Henning, Th., Jäger, C. & Mutschke, H. Steps toward interstellar silicate mineralogy. II. Study of Mg-Fe-silicate glasses of variable composition. Astron. Astrophys. 300, 503–520 (1995)
    ADS CAS Google Scholar
19. Artymowicz, P. Radiation pressure forces on particles in the Beta Pictoris system. Astrophys. J. 335, L79–L82 (1988)
    Article ADS CAS Google Scholar
20. Mukai, T. & Giese, R. H. Modification of the spatial distribution of interplanetary dust grains by Lorentz forces. Astron. Astrophys. 131, 355–363 (1984)
    ADS Google Scholar
21. Fabian, D., Jäger, C., Henning, Th., Dorschner, J. & Mutschke, H. Steps toward interstellar silicate mineralogy V. Thermal evolution of amorphous magnesium silicates and silica. Astron. Astrophys. 364, 282–292 (2000)
    ADS CAS Google Scholar
22. Pantin, E., Waelkens, C. & Malfait, K. The Universe as Seen by ISO (eds Cox, P. & Kessler, M. F.) 385–388 (ESA SP 427, ESA Publications Division, Noordwijk, 1999)
    Google Scholar
23. Fixsen, D. J. & Dwek, E. The zodiacal emission spectrum as determined by COBE and its implications. Astrophys. J. 578, 1009–1014 (2002)
    Article ADS Google Scholar
24. Backman, D. E., Witteborn, F. C. & Gillett, F. C. Infrared observations and thermal models of the Beta Pictoris disk. Astrophys. J. 385, 670–679 (1992)
    Article ADS Google Scholar
25. Weinberger, A. J., Becklin, E. E. & Zuckerman, B. The first spatially resolved mid-infrared spectroscopy of β Pictoris. Astrophys. J. 584, L33–L37 (2003)
    Article ADS CAS Google Scholar

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Acknowledgements

This Letter is based on data collected at the Subaru Telescope, which is operated by the National Astronomical Observatory of Japan. We thank C. Koike, I. Yamamura, F. Usui, S. Hasegawa, T. Ootsubo, H. Chihara, T. Nakamoto, H. Tanaka and T. Takeuchi for comments and discussions.

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Author notes

1. Yoshiko Kataza Okamoto
   Present address: Institute of Astrophysics and Planetary Sciences, Ibaraki University, Bunkyo 2-1-1, Mito, Ibaraki, 310-8512, Japan

Authors and Affiliations

1. Center for Natural Sciences, College of Liberal Arts and Sciences, Kitasato University, 1-15-1 Kitazato, Sagamihara, Kanagawa, 228-8555, Japan
   Yoshiko Kataza Okamoto
2. Department of Infrared Astrophysics, Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency, 3-1-1 Yoshinodai, Sagamihara, Kanagawa, 229-8510, Japan
   Yoshiko Kataza Okamoto & Hirokazu Kataza
3. Department of Astronomy, Graduate School of Science, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo, 113-0033, Japan
   Mitsuhiko Honda, Takashi Onaka & Itsuki Sakon
4. Subaru Telescope, National Astronomical Observatory of Japan, 650 North A'ohoku Place, Hilo, Hawaii, 96720, USA
   Takuya Yamashita & Takuya Fujiyoshi
5. National Astronomical Observatory of Japan, 2-21-1 Osawa, 181-8588, Mitaka, Tokyo, Japan
   Jun-ichi Watanabe
6. Institute of Astronomy, School of Science, University of Tokyo, 2-21-1 Osawa, Mitaka, Tokyo, 181-0015, Japan
   Takashi Miyata & Shigeyuki Sako

Authors

1. Yoshiko Kataza Okamoto
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2. Hirokazu Kataza
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3. Mitsuhiko Honda
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4. Takuya Yamashita
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5. Takashi Onaka
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6. Jun-ichi Watanabe
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7. Takashi Miyata
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8. Shigeyuki Sako
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9. Takuya Fujiyoshi
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10. Itsuki Sakon
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Correspondence toYoshiko Kataza Okamoto.

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Okamoto, Y., Kataza, H., Honda, M. et al. An early extrasolar planetary system revealed by planetesimal belts in β Pictoris.Nature 431, 660–663 (2004). https://doi.org/10.1038/nature02948

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• Received: 09 April 2004
• Accepted: 17 August 2004
• Issue Date: 07 October 2004
• DOI: https://doi.org/10.1038/nature02948

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