Extra-Solar Kuiper Belt Dust Disks

The dust disks observed around mature stars are evidence that plantesimals are present in these systems on spatial scales that are similar to that of the asteroids and the KBOs in the Solar System. These dust disks (a.k.a. ``debris disks'') present a wide range of sizes, morphologies and properties. It is inferred that their dust mass declines with time as the dust-producing planetesimals get depleted, and that this decline can be punctuated by large spikes that are produced as a result of individual collisional events. The lack of solid state features indicate that, generally, the dust in these disks have sizes larger than approximately 10 microns, but exceptionally, strong silicate features in some disks suggest the presence of large quantities of small grains, thought to be the result of recent collisions. Spatially resolved observations of debris disks show a diversity of structural features, such as inner cavities, warps, offsets, brightness asymmetries, spirals, rings and clumps. There is growing evidence that, in some cases, these structures are the result of the dynamical perturbations of a massive planet. Our Solar System also harbors a debris disk and some of its properties resemble those of extra-solar debris disks. From the cratering record, we can infer that its dust mass has decayed with time, and that there was at least one major ``spike'' in the past during the Late Heavy Bombardment. This offers a unique opportunity to use extra-solar debris disks to shed some light in how the Solar System might have looked in the past. Similarly, our knowledge of the Solar System is influencing our understanding of the types of processes which might be at play in the extra-solar debris disks.

[1]  J. Augereau,et al.  Spitzer Observations of the Hyades: Circumstellar Debris Disks at 625 Myr of Age , 2008, 0801.4403.

[2]  S. Wolf,et al.  The Dust, Planetesimals, and Planets of HD 38529 , 2007, 0706.3368.

[3]  D. Davis,et al.  Formation and Collisional Evolution of Kuiper Belt Objects , 2007, 0704.0259.

[4]  S. Wolf,et al.  Are Debris Disks and Massive Planets Correlated? , 2006, astro-ph/0612242.

[5]  et al,et al.  New Debris Disks around Nearby Main-Sequence Stars: Impact on the Direct Detection of Planets , 2006, astro-ph/0611682.

[6]  R. Smith,et al.  Transience of Hot Dust around Sun-like Stars , 2006, astro-ph/0610102.

[7]  G. Rieke,et al.  Spitzer 24 μm Observations of Open Cluster IC 2391 and Debris Disk Evolution of FGK Stars , 2006, astro-ph/0609141.

[8]  Canada.,et al.  Collisional dust avalanches in debris discs , 2006, astro-ph/0609025.

[9]  S. Wolf,et al.  Formation and Evolution of Planetary Systems: Upper Limits to the Gas Mass in Disks around Sun-like Stars , 2006, astro-ph/0606669.

[10]  M. Meyer,et al.  Evolution of Circumstellar Disks Around Normal Stars: Placing Our Solar System in Context , 2006, astro-ph/0606399.

[11]  E. Young,et al.  Spitzer 24 μm Survey of Debris Disks in the Pleiades , 2006, astro-ph/0606039.

[12]  S. Tachibana,et al.  60Fe in Chondrites: Debris from a Nearby Supernova in the Early Solar System? , 2006 .

[13]  D. Fischer,et al.  Metallicity, debris discs and planets , 2006 .

[14]  G. Rieke,et al.  IRS Spectra of Solar-Type Stars: A Search for Asteroid Belt Analogs , 2006, astro-ph/0601468.

[15]  J. Graham,et al.  First Scattered Light Images of Debris Disks around HD 53143 and HD 139664 , 2006, astro-ph/0601488.

[16]  M. Wyatt Dust in Resonant Extrasolar Kuiper Belts: Grain Size and Wavelength Dependence of Disk Structure , 2005, astro-ph/0511219.

[17]  S. Wolf,et al.  The Formation and Evolution of Planetary Systems (FEPS): Discovery of an Unusual Debris System Associated with HD 12039 , 2005, astro-ph/0510294.

[18]  E. Young,et al.  Spitzer Space Telescope Observations of G Dwarfs in the Pleiades: Circumstellar Debris Disks at 100 Myr Age , 2005 .

[19]  D. Kring,et al.  The Origin of Planetary Impactors in the Inner Solar System , 2005, Science.

[20]  G. Rieke,et al.  Frequency of Debris Disks around Solar-Type Stars: First Results from a Spitzer MIPS Survey , 2005, astro-ph/0509199.

[21]  S. Ida,et al.  The evidence of an early stellar encounter in Edgeworth–Kuiper belt , 2005 .

[22]  B. Zuckerman,et al.  Extreme collisions between planetesimals as the origin of warm dust around a Sun-like star , 2005, Nature.

[23]  G. Schneider,et al.  Discovery of a Nearly Edge-on Disk around HD 32297 , 2005, astro-ph/0507355.

[24]  A. Moro-martin,et al.  Dust Outflows and Inner Gaps Generated by Massive Planets in Debris Disks , 2005, astro-ph/0506674.

[25]  Mark Clampin,et al.  A planetary system as the origin of structure in Fomalhaut's dust belt , 2005, Nature.

[26]  S. Wolf,et al.  Formation and Evolution of Planetary Systems: Cold Outer Disks Associated with Sun-like Stars , 2005, astro-ph/0506434.

[27]  J.S.Kim,et al.  Formation and Evolution of Planetary Systems: Upper Limits to the Gas Mass in HD 105 , 2005, astro-ph/0506252.

[28]  M. Wyatt Spiral structure when setting up pericentre glow : possible giant planets at hundreds of AU in the HD 141569 disk , 2005, astro-ph/0506208.

[29]  Jonathan P. Williams,et al.  Circumstellar Dust Disks in Taurus-Auriga: The Submillimeter Perspective , 2005, astro-ph/0506187.

[30]  G. Rieke,et al.  An Excess Due to Small Grains around the Nearby K0 V Star HD 69830: Asteroid or Cometary Debris? , 2005, astro-ph/0504491.

[31]  J. Valenti,et al.  The Planet-Metallicity Correlation , 2005 .

[32]  S. Kenyon,et al.  Prospects for Detection of Catastrophic Collisions in Debris Disks , 2005, astro-ph/0503551.

[33]  S. Wolf,et al.  Signatures of Planets in Spatially Unresolved Debris Disks , 2005, astro-ph/0506669.

[34]  David E. Trilling,et al.  Decay of Planetary Debris Disks , 2005 .

[35]  David A. Golimowski,et al.  Hubble Space Telescope Advanced Camera for Surveys Coronagraphic Imaging of the AU Microscopii Debris Disk , 2005 .

[36]  David E. Trilling,et al.  The Deep Ecliptic Survey: A Search for Kuiper Belt Objects and Centaurs. II. Dynamical Classification, the Kuiper Belt Plane, and the Core Population , 2005 .

[37]  Thomas L. Hayward,et al.  Mid-infrared images of beta Pictoris and the possible role of planetesimal collisions in the central disk. , 2005, Nature.

[38]  E. I. Robson,et al.  Structure in the ϵ Eridani Debris Disk , 2005 .

[39]  M. Blaylock,et al.  A Spitzer Study of Dusty Disks in the Scorpius-Centaurus OB Association , 2005, astro-ph/0501103.

[40]  M. Wyatt,et al.  The Insignificance of P-R drag in detectable extrasolar planetesimal belts , 2005, astro-ph/0501038.

[41]  G. Rieke,et al.  Planets and Infrared Excesses: Preliminary Results from a Spitzer MIPS Survey of Solar-Type Stars , 2004, astro-ph/0412265.

[42]  J. Greaves,et al.  Submillimeter Images of a Dusty Kuiper Belt around η Corvi , 2004, astro-ph/0411061.

[43]  A. Weinberger,et al.  Spatially Resolved Spectroscopy and Coronagraphic Imaging of the TW Hydrae Circumstellar Disk , 2004, astro-ph/0410251.

[44]  Shigeyuki Sako,et al.  An early extrasolar planetary system revealed by planetesimal belts in β Pictoris , 2004, Nature.

[45]  Massimo Marengo,et al.  First Look at the Fomalhaut Debris Disk with the Spitzer Space Telescope , 2004 .

[46]  S. Wolf,et al.  The Formation and Evolution of Planetary Systems: First Results from a Spitzer Legacy Science Program , 2004 .

[47]  Michael C. Liu Substructure in the Circumstellar Disk Around the Young Star AU Microscopii , 2004, Science.

[48]  W. Holland,et al.  The debris disc around τ Ceti: a massive analogue to the Kuiper Belt , 2004 .

[49]  D. Padgett,et al.  New Debris-Disk Candidates: 24 Micron Stellar Excesses at 100 Million years , 2004, astro-ph/0406041.

[50]  L. Hartmann,et al.  Mid-Infrared Spectra of Dust Debris around Main-Sequence Stars , 2004, astro-ph/0405632.

[51]  R. Jayawardhana,et al.  A search for debris discs around stars with giant planets , 2004 .

[52]  Michael S. Bessell,et al.  New Members of the TW Hydrae Association, β Pictoris Moving Group, and Tucana/Horologium Association , 2003 .

[53]  S. Dermott,et al.  Resonant Structure in the Kuiper Disk: An Asymmetric Plutino Disk , 2003 .

[54]  S. Kenyon,et al.  Collisional Cascades in Planetesimal Disks. II. Embedded Planets , 2003, astro-ph/0309540.

[55]  C. Dominik,et al.  Age Dependence of the Vega Phenomenon: Theory , 2003, astro-ph/0308364.

[56]  M. Wyatt,et al.  Resonant Trapping of Planetesimals by Planet Migration: Debris Disk Clumps and Vega’s Similarity to the Solar System , 2003, astro-ph/0308253.

[57]  J. Lissauer,et al.  Resonant Inclination Excitation of Migrating Giant Planets , 2003, astro-ph/0308112.

[58]  W. Reach,et al.  The mid-infrared spectrum of the zodiacal and exozodiacal light , 2003, astro-ph/0304289.

[59]  A. Natta Circumstellar Disks in pre-Main Sequence Stars , 2003, astro-ph/0304184.

[60]  A. Moro-martin,et al.  Dynamical Models of Kuiper Belt Dust in the Inner and Outer Solar System , 2003, astro-ph/0506703.

[61]  R. Bouwens,et al.  Hubble Space Telescope ACS Coronagraphic Imaging of the Circumstellar Disk around HD 141569A , 2003, astro-ph/0303605.

[62]  B. Zuckerman,et al.  The First Spatially Resolved Mid-Infrared Spectroscopy of β Pictoris , 2003 .

[63]  Wayne S. Holland,et al.  Submillimeter Observations of an Asymmetric Dust Disk around Fomalhaut , 2003 .

[64]  Marc J. Kuchner,et al.  The Geometry of Resonant Signatures in Debris Disks with Planets , 2002, astro-ph/0209261.

[65]  A. Quillen,et al.  Structure in the ϵ Eridani Dusty Disk Caused by Mean Motion Resonances with a 0.3 Eccentricity Planet at Periastron , 2002, astro-ph/0208279.

[66]  R. Malhotra,et al.  A Study of the Dynamics of Dust from the Kuiper Belt: Spatial Distribution and Spectral Energy Distribution , 2002, astro-ph/0207350.

[67]  W. Dent,et al.  Collisional processes in extrasolar planetesimal discs – dust clumps in Fomalhaut's debris disc , 2002, astro-ph/0204034.

[68]  L. Wasserman,et al.  The Deep Ecliptic Survey: A Search for Kuiper Belt Objects and Centaurs. I. Description of Methods and Initial Results , 2002 .

[69]  M. Holman,et al.  Structure in the Dusty Debris around Vega , 2002, astro-ph/0203264.

[70]  M. Landgraf,et al.  Origins of Solar System Dust beyond Jupiter , 2002, astro-ph/0201291.

[71]  J. Weingartner,et al.  Dust Grain-Size Distributions and Extinction in the Milky Way, Large Magellanic Cloud, and Small Magellanic Cloud , 2001 .

[72]  P. Kalas,et al.  Stellar Encounters with the β Pictoris Planetesimal System , 2001, astro-ph/0101364.

[73]  Gordon A. H. Walker,et al.  Evidence for a Long-Period Planet Orbiting ϵ Eridani , 2000, astro-ph/0009423.

[74]  M. Simon,et al.  Dynamical Masses of T Tauri Stars and Calibration of Pre-Main-Sequence Evolution , 2000, astro-ph/0008370.

[75]  Bruce E. Woodgate,et al.  Space Telescope Imaging Spectrograph Coronagraphic Observations of β Pictoris , 2000 .

[76]  S. Dermott,et al.  The Size–Frequency Distribution of the Zodiacal Cloud: Evidence from the Solar System Dust Bands , 2000, astro-ph/0005286.

[77]  John C. Mather,et al.  Signatures of Exosolar Planets in Dust Debris Disks , 1999, astro-ph/0007014.

[78]  S. Dermott,et al.  How Observations of Circumstellar Disk Asymmetries Can Reveal Hidden Planets: Pericenter Glow and Its Application to the HR 4796 Disk , 1999, astro-ph/9908267.

[79]  J. Liou,et al.  Signatures of the Giant Planets Imprinted on the Edgeworth-Kuiper Belt Dust Disk , 1999 .

[80]  L. Hartmann,et al.  Accretion processes in star formation , 1999 .

[81]  D. Jewitt KUIPER BELT OBJECTS , 1999 .

[82]  M. Duncan,et al.  Dynamics of the Kuiper Belt , 1999, astro-ph/9901155.

[83]  Mullard Space Science Laboratory,et al.  A Dust Ring around epsilon Eridani: Analog to the Young Solar System , 1998, astro-ph/9808224.

[84]  B. Zuckerman,et al.  Submillimetre images of dusty debris around nearby stars , 1998, Nature.

[85]  L. Hillenbrand,et al.  A Preliminary Study of the Orion Nebula Cluster Structure and Dynamics , 1998 .

[86]  M. Clampin,et al.  Dust around Main-Sequence Stars: Nature or Nurture by the Interstellar Medium? , 1997 .

[87]  D. Mouillet,et al.  A planet on an inclined orbit as an explanation of the warp in the β Pictoris disc , 1997, astro-ph/9705100.

[88]  S. Alan Stern,et al.  On the Collisional Environment, Accretion Time Scales, and Architecture of the Massive, Primordial Kuiper Belt. , 1996 .

[89]  S. Dermott,et al.  The contribution of cometary dust to the zodiacal cloud , 1995 .

[90]  E. L. Wright,et al.  Observational confirmation of a circumsolar dust ring by the COBE satellite , 1995, Nature.

[91]  Renu Malhotra,et al.  The origin of Pluto's peculiar orbit , 1995, Nature.

[92]  S. Dermott,et al.  A circumsolar ring of asteroidal dust in resonant lock with the Earth , 1994, Nature.

[93]  Renu Malhotra,et al.  The origin of Pluto's orbit: implications for the , 1994, astro-ph/9504036.

[94]  J. Liou,et al.  An Asteroidal Dust Ring of Micron-Sized Particles Trapped in the 1:1 Mean Motion Resonance with Jupiter , 1994 .

[95]  Richard Greenberg,et al.  Is There a Planet around β Pictoris? Perturbations of a Planet on a Circumstellar Dust Disk: 2. The Analytical Model , 1994 .

[96]  D. Brownlee,et al.  A Direct Measurement of the Terrestrial Mass Accretion Rate of Cosmic Dust , 1993, Science.

[97]  P. Sylvester,et al.  Large Siderophile-Element Fractionations in Murchison Sulfides , 1993 .

[98]  M. Lipschutz The formation and evolution of planetary systems , 1990 .

[99]  C. Chyba Impact delivery and erosion of planetary oceans in the early inner Solar System , 1990, Nature.

[100]  H. Zook,et al.  A Solar System dust ring with the Earth as its shepherd , 1988, Nature.

[101]  F. J. Low,et al.  DISCOVERY OF A SHELL AROUND ALPHA-LYRAE , 1984 .

[102]  Jack Wisdom,et al.  The resonance overlap criterion and the onset of stochastic behavior in the restricted three-body problem , 1980 .

[103]  J. Burns,et al.  Radiation forces on small particles in the solar system , 1979 .

[104]  S. Weidenschilling The distribution of mass in the planetary system and solar nebula , 1977 .

[105]  J. Truran,et al.  The supernova trigger for formation of the solar system , 1977 .

[106]  J. Liou,et al.  Structure of the Kuiper Belt Dust Disk , 2008 .

[107]  Harold F. Levison,et al.  Planet Migration in Planetesimal Disks , 2007 .

[108]  K. Y. L. Su,et al.  accepted for publication in ApJ Preprint typeset using L ATEX style emulateapj v. 2/19/04 DEBRIS DISK EVOLUTION AROUND A STARS , 2006 .

[109]  Katja Nowick,et al.  The Origin of Planetary Impactors in the Inner Solar System , 2005 .

[110]  Z. Wahhaj Planetary signatures in circumstellar debris disks , 2005 .

[111]  J. Bradley The Astromineralogy of Interplanetary Dust Particles , 2003 .

[112]  D. Hollenbach,et al.  Dispersal of Disks Around Young Stars: Constraints on Kuiper Belt Formation , 2002 .

[113]  A. Boss,et al.  Protostars and Planets VI , 2000 .

[114]  T. Mukai,et al.  Dust production by impacts of interstellar dust on Edgeworth-Kuiper Belt objects , 1998 .

[115]  Francesco Paresce,et al.  Main-Sequence Stars with Circumstellar Solid Material - the VEGA Phenomenon , 1993 .

[116]  F. Adams,et al.  Star Formation in Molecular Clouds: Observation and Theory , 1987 .

[117]  R. Greenberg,et al.  The formation and origin of the IRAS zodiacal dust bands as a consequence of single collisions between asteroids , 1986 .

[118]  Keith M. Lewin The evidence , 1985 .

[119]  C. Hayashi Structure of the Solar Nebula, Growth and Decay of Magnetic Fields and Effects of Magnetic and Turbulent Viscosities on the Nebula , 1981 .