Literature DB >> 14988511

Discovery of a large dust disk around the nearby star AU Microscopii.

Paul Kalas1, Michael C Liu, Brenda C Matthews.   

Abstract

We present the discovery of a circumstellar dust disk surrounding AU Microscopii (AU Mic, GJ 803, HD 197481). This young M star at 10 parsec has the same age and origin as beta Pictoris, another nearby star surrounded by a dust disk. The AU Mic disk is detected between 50 astronomical units (AU) and 210 AU radius, a region where dust lifetimes exceed the present stellar age. Thus, AU Mic is the nearest star where we directly observe the solid material required for planet formation. Because 85% of stars are M-type, the AU Mic disk provides new clues on how the majority of planetary systems might form and evolve.

Entities:  

Year:  2004        PMID: 14988511     DOI: 10.1126/science.1093420

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  3 in total

1.  Fast-moving features in the debris disk around AU Microscopii.

Authors:  Anthony Boccaletti; Christian Thalmann; Anne-Marie Lagrange; Markus Janson; Jean-Charles Augereau; Glenn Schneider; Julien Milli; Carol Grady; John Debes; Maud Langlois; David Mouillet; Thomas Henning; Carsten Dominik; Anne-Lise Maire; Jean-Luc Beuzit; Joseph Carson; Kjetil Dohlen; Natalia Engler; Markus Feldt; Thierry Fusco; Christian Ginski; Julien H Girard; Dean Hines; Markus Kasper; Dimitri Mawet; François Ménard; Michael R Meyer; Claire Moutou; Johan Olofsson; Timothy Rodigas; Jean-Francois Sauvage; Joshua Schlieder; Hans Martin Schmid; Massimo Turatto; Stephane Udry; Farrokh Vakili; Arthur Vigan; Zahed Wahhaj; John Wisniewski
Journal:  Nature       Date:  2015-10-08       Impact factor: 49.962

2.  Astrophysics: Surprisingly fast motions in a dust disk.

Authors:  Marshall D Perrin
Journal:  Nature       Date:  2015-10-08       Impact factor: 49.962

3.  A planet within the debris disk around the pre-main-sequence star AU Microscopii.

Authors:  Peter Plavchan; Thomas Barclay; Jonathan Gagné; Peter Gao; Bryson Cale; William Matzko; Diana Dragomir; Sam Quinn; Dax Feliz; Keivan Stassun; Ian J M Crossfield; David A Berardo; David W Latham; Ben Tieu; Guillem Anglada-Escudé; George Ricker; Roland Vanderspek; Sara Seager; Joshua N Winn; Jon M Jenkins; Stephen Rinehart; Akshata Krishnamurthy; Scott Dynes; John Doty; Fred Adams; Dennis A Afanasev; Chas Beichman; Mike Bottom; Brendan P Bowler; Carolyn Brinkworth; Carolyn J Brown; Andrew Cancino; David R Ciardi; Mark Clampin; Jake T Clark; Karen Collins; Cassy Davison; Daniel Foreman-Mackey; Elise Furlan; Eric J Gaidos; Claire Geneser; Frank Giddens; Emily Gilbert; Ryan Hall; Coel Hellier; Todd Henry; Jonathan Horner; Andrew W Howard; Chelsea Huang; Joseph Huber; Stephen R Kane; Matthew Kenworthy; John Kielkopf; David Kipping; Chris Klenke; Ethan Kruse; Natasha Latouf; Patrick Lowrance; Bertrand Mennesson; Matthew Mengel; Sean M Mills; Tim Morton; Norio Narita; Elisabeth Newton; America Nishimoto; Jack Okumura; Enric Palle; Joshua Pepper; Elisa V Quintana; Aki Roberge; Veronica Roccatagliata; Joshua E Schlieder; Angelle Tanner; Johanna Teske; C G Tinney; Andrew Vanderburg; Kaspar von Braun; Bernie Walp; Jason Wang; Sharon Xuesong Wang; Denise Weigand; Russel White; Robert A Wittenmyer; Duncan J Wright; Allison Youngblood; Hui Zhang; Perri Zilberman
Journal:  Nature       Date:  2020-06-24       Impact factor: 49.962
  3 in total

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