EVIDENCE FOR FRESH FROST LAYER ON THE BARE NUCLEUS OF COMET HALE–BOPP AT 32 AU DISTANCE

Here, we report that the activity of comet Hale–Bopp ceased between late 2007 and 2009 March, at about 28 AU distance from the Sun. At that time, the comet resided at a distance from the Sun that exceeded the freeze-out distance of regular comets by an order of magnitude. A Herschel Space Observatory PACS scan was taken in mid-2010, in the already inactive state of the nucleus. The albedo has been found to be surprisingly large (8.1% ± 0.9%), which exceeds the value known for any other comets. With re-reduction of archive Hubble Space Telescope images from 1995 and 1996, we confirm that the pre-perihelion albedo resembled that of an ordinary comet and was smaller by a factor of two than the post-activity albedo. Our further observations with the Very Large Telescope also confirmed that the albedo increased significantly by the end of the activity. We explain these observations by proposing gravitational redeposition of icy grains toward the end of the activity. This is plausible for such a massive body in a cold environment, where gas velocity is lowered to the range of the escape velocity. These observations also show that giant comets are not just the upscaled versions of the comets we know but can be affected by processes that are yet to be fully identified.

[1]  Steward Observatory,et al.  “TNOs are Cool”: a survey of the trans-Neptunian region - VII. Size and surface characteristics of (90377) Sedna and 2010 EK139 , 2012, 1204.0899.

[2]  A. Harris,et al.  “TNOs are Cool”: A survey of the trans-Neptunian region - IV. Size/albedo characterization of 15 scattered disk and detached objects observed with Herschel-PACS , 2012, 1202.1481.

[3]  András Pál,et al.  fitsh– a software package for image processing , 2011 .

[4]  M. C. Wyatt,et al.  SPITZER EVIDENCE FOR A LATE-HEAVY BOMBARDMENT AND THE FORMATION OF UREILITES IN η CORVI At ∼1 Gyr , 2011, 1110.4172.

[5]  H. Melosh,et al.  EPOXI at Comet Hartley 2 , 2011, Science.

[6]  Andrew A. West,et al.  Detecting active comets in the SDSS , 2010 .

[7]  S. Ott,et al.  Herschel Space Observatory - An ESA facility for far-infrared and submillimetre astronomy , 2010, 1005.5331.

[8]  D. Jewitt,et al.  ALBEDOS OF MAIN-BELT COMETS 133P/ELST-PIZARRO AND 176P/LINEAR , 2009, 0902.3682.

[9]  L. Kiss,et al.  Cometary Activity at 25.7 AU: Hale-Bopp 11 Years after Perihelion , 2008, 0803.1505.

[10]  Thomas Henning,et al.  The Photodetector Array Camera and Spectrometer (PACS) for the Herschel Space Observatory , 2004, Astronomical Telescopes + Instrumentation.

[11]  To appear in The Astrophysical Journal An Excess Due to Small Grains Around The Nearby K0V Star HD69830: Asteroid or Cometary Debris? , 2005 .

[12]  L. Jorda,et al.  Properties of the nuclei of Centaurs Chiron and Chariklo , 2004 .

[13]  David Jewitt,et al.  From Kuiper Belt Object to Cometary Nucleus: The Missing Ultrared Matter , 2002 .

[14]  D. Jewitt,et al.  Thermal Properties of Centaurs Asbolus and Chiron , 2001, astro-ph/0111395.

[15]  I. Paris,et al.  High-Resolution HUBBLE SPACE TELESCOPE STIS Spectra of C I and CO in the β Pictoris Circumstellar Disk , 2000, astro-ph/0003446.

[16]  M. Serra-Ricart,et al.  The Rotation Period of C/1995 O1 (Hale-Bopp) , 1998 .

[17]  B. G. Mardsen Orbit Determination and Evolution of Comet C/1995 O1 (Hale-Bopp) , 1997 .

[18]  P. Lamy,et al.  Estimating the Size of Hale-Bopp's Nucleus , 1997 .

[19]  E. Lellouch,et al.  Evolution of the Outgassing of Comet Hale-Bopp (C/1995 O1) from Radio Observations , 1997, Science.

[20]  P. Feldman,et al.  The Activity and Size of the Nucleus of Comet Hale-Bopp (C/1995 O1) , 1997, Science.

[21]  Stefano Casertano,et al.  THE PHOTOMETRIC PERFORMANCE AND CALIBRATION OF WFPC2 , 1995 .

[22]  Richard J. Rudy,et al.  A refined “standard” thermal model for asteroids based on observations of 1 Ceres and 2 Pallas , 1986 .

[23]  G. Danielson,et al.  Charge-coupled device photometry of Comet P/Halley , 1984 .