Direct measurement of the size, shape, and pole of 511 Davida with Keck AO in a single night

Direct measurement of the size, shape, and pole of 511 Davida with Keck AO in a single night

Using the high-quality data set of 165 images taken at 11 epochs over the 5.13 h rotation of the large C-type Asteroid 511 Davida, we find the dimensions of its triaxial ellipsoid model to be 357 ± 2 × 294 ± 2 × 231 ± 50   km . The images were acquired with the adaptive optics system on the 10 m Kec...

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Veröffentlicht in:Icarus (New York, N.Y. 1962) N.Y. 1962), 2007-11, Vol.191 (2), p.616-627
Hauptverfasser: Conrad, A.R., Dumas, C., Merline, W.J., Drummond, J.D., Campbell, R.D., Goodrich, R.W., Le Mignant, D., Chaffee, F.H., Fusco, T., Kwok, S.H., Knight, R.I.
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Adaptive optics
Asteroids
Astronomy
Earth, ocean, space
Exact sciences and technology
rotation
Solar system
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container_end_page 627
container_issue 2
container_start_page 616
container_title Icarus (New York, N.Y. 1962)
container_volume 191
creator Conrad, A.R.
Dumas, C.
Merline, W.J.
Drummond, J.D.
Campbell, R.D.
Goodrich, R.W.
Le Mignant, D.
Chaffee, F.H.
Fusco, T.
Kwok, S.H.
Knight, R.I.
description Using the high-quality data set of 165 images taken at 11 epochs over the 5.13 h rotation of the large C-type Asteroid 511 Davida, we find the dimensions of its triaxial ellipsoid model to be 357 ± 2 × 294 ± 2 × 231 ± 50   km . The images were acquired with the adaptive optics system on the 10 m Keck II telescope on December 27, 2002. The a and b diameters are much better determined than previously estimated from speckle interferometry and indirect measurements, and our mean diameter, ( a b c ) 1 / 3 = 289 ± 21   km , is 19% below previous estimates. We find the pole to lie within 2° of [ RA = 295 ° ; Dec = 0 ° ] or in Ecliptic coordinates [ λ = 297 ° ; β = + 21 ° ], a significant improvement to the pole direction. Otherwise, previous determinations of the axial ratios agree with our new results. These observations illustrate that our technique of finding the dimensions and pole of an asteroid from its changing projected size and shape is very powerful because it can be done in essentially one night as opposed to decades of lightcurves. Average departures of 3% (5 km) of the asteroid's mean radius from a smooth outline are detected, with at least two local positive-relief features and at least one flat facet showing approximately 15 km deviations from the reference best-fit ellipsoid. The facet is reminiscent of large global-scale craters on Asteroid 253 Mathilde (also a C-type) when seen edge-on in close-up images from the NEAR mission flyby. We show that giant craters (up to 150 km diameter, the size of the largest facets seen on Davida) can be expected from the impactor size distribution, without likelihood of catastrophic disruption of Davida.
doi_str_mv 10.1016/j.icarus.2007.05.004
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The images were acquired with the adaptive optics system on the 10 m Keck II telescope on December 27, 2002. The a and b diameters are much better determined than previously estimated from speckle interferometry and indirect measurements, and our mean diameter, ( a b c ) 1 / 3 = 289 ± 21   km , is 19% below previous estimates. We find the pole to lie within 2° of [ RA = 295 ° ; Dec = 0 ° ] or in Ecliptic coordinates [ λ = 297 ° ; β = + 21 ° ], a significant improvement to the pole direction. Otherwise, previous determinations of the axial ratios agree with our new results. These observations illustrate that our technique of finding the dimensions and pole of an asteroid from its changing projected size and shape is very powerful because it can be done in essentially one night as opposed to decades of lightcurves. Average departures of 3% (5 km) of the asteroid's mean radius from a smooth outline are detected, with at least two local positive-relief features and at least one flat facet showing approximately 15 km deviations from the reference best-fit ellipsoid. The facet is reminiscent of large global-scale craters on Asteroid 253 Mathilde (also a C-type) when seen edge-on in close-up images from the NEAR mission flyby. 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Average departures of 3% (5 km) of the asteroid's mean radius from a smooth outline are detected, with at least two local positive-relief features and at least one flat facet showing approximately 15 km deviations from the reference best-fit ellipsoid. The facet is reminiscent of large global-scale craters on Asteroid 253 Mathilde (also a C-type) when seen edge-on in close-up images from the NEAR mission flyby. 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subjects Adaptive optics
Asteroids
Astronomy
Earth, ocean, space
Exact sciences and technology
rotation
Solar system
title Direct measurement of the size, shape, and pole of 511 Davida with Keck AO in a single night
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