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Imaging Borrelly

Authors :
Soderblom, L.A.
Boice, D.C.
Britt, D.T.
Brown, R.H.
Buratti, B.J.
Kirk, R.L.
Lee, M.
Nelson, R.M.
Oberst, J.
Sandel, B.R.
Stern, S.A.
Thomas, N.
Yelle, R.V.
Source :
Icarus. Jan, 2004, Vol. 167 Issue 1, p4, 12 p.
Publication Year :
2004

Abstract

The nucleus, coma, and dust jets of short-period Comet 19P/Borrelly were imaged from the Deep Space 1 spacecraft during its close flyby in September 2001. A prominent jet dominated the near-nucleus coma and emanated roughly normal to the long axis of nucleus from a broad central cavity. We show it to have remained fixed in position for more than 34 hr, much longer than the 26-hr rotation period. This confirms earlier suggestions that it is co-aligned with the rotation axis. From a combination of fitting the nucleus light curve from approach images and the nucleus' orientation from stereo images at encounter, we conclude that the sense of rotation is right-handed around the main jet vector. The inferred rotation pole is approximately perpendicular to the long axis of the nucleus, consistent with a simple rotational state. Lacking an existing IAU comet-specific convention but applying a convention provisionally adopted for asteroids, we label this the north pole. This places the sub-solar latitude at ~60[degrees] N at the time of the perihelion with the north pole in constant sunlight and thus receiving maximum average insolation. Keywords: Comet; Imaging; Nucleus; Topography; Coma; Dust jet; Short-period comets; 19P/Borrelly; Borrelly; Deep Space 1; Rotation axis; Rotation pole

Subjects

Subjects :
Comets
Astronomy
Earth sciences

Details

Language :
English
ISSN :
00191035
Volume :
167
Issue :
1
Database :
Gale General OneFile
Journal :
Icarus
Publication Type :
Academic Journal
Accession number :
edsgcl.112798716