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Title:
Hidden Mass in the Asteroid Belt
Authors:
Krasinsky, G. A.; Pitjeva, E. V.; Vasilyev, M. V.; Yagudina, E. I.
Affiliation:
AA(Institute of Applied Astronomy, Russian Academy of Sciences, Kutuzov Quay 10, St. Petersburg, 191187, Russia ; ), AB(Institute of Applied Astronomy, Russian Academy of Sciences, Kutuzov Quay 10, St. Petersburg, 191187, Russia), AC(Institute of Applied Astronomy, Russian Academy of Sciences, Kutuzov Quay 10, St. Petersburg, 191187, Russia), AD(Institute of Applied Astronomy, Russian Academy of Sciences, Kutuzov Quay 10, St. Petersburg, 191187, Russia)
Publication:
Icarus, Volume 158, Issue 1, p. 98-105. (Icarus Homepage)
Publication Date:
07/2002
Origin:
ELSEVIER
Abstract Copyright:
(c) 2002 Elsevier Science (USA)
DOI:
10.1006/icar.2002.6837
Bibliographic Code:
2002Icar..158...98K

Abstract

The total mass of the asteroid belt is estimated from an analysis of the motions of the major planets by processing high precision measurements of ranging to the landers Viking-1, Viking-2, and Pathfinder (1976-1997). Modeling of the perturbing accelerations of the major planets accounts for individual contributions of 300 minor planets; the total contribution of all remaining small asteroids is modeled as an acceleration caused by a solid ring in the ecliptic plane. Mass Mring of the ring and its radius R are considered as solve-for parameters. Masses of the 300 perturbing asteroids have been derived from their published radii based mainly on measured fluxes of radiation, making use of the corresponding densities. This set of asteroids is grouped into three classes in accordance with physical properties and then corrections to the mean density for each class are estimated in the process of treating the observations. In this way an improved system of masses of the perturbing asteroids has been derived. The estimate Mring≈(5±1)×10 -10M is obtained ( M is the solar mass) whose value is about one mass of Ceres. For the mean radius of the ring we have R≈2.80 AU with 3% uncertainty. Then the total mass Mbelt of the main asteroid belt (including the 300 asteroids mentioned above) may be derived: Mbelt≈(18±2)×10 -10M. The value Mbelt includes masses of the asteroids which are already discovered, and the total mass of a large number of small asteroids—most of which cannot be observed from the Earth. The second component Mring is the hidden mass in the asteroid belt as evaluated from its dynamical impact onto the motion of the major planets. Two parameters of a theoretical distribution of the number of asteroids over their masses are evaluated by fitting to the improved set of masses of the 300 asteroids (assuming that there is no observational selection effect in this set). This distribution is extrapolated to the whole interval of asteroid masses and as a result the independent estimate Mbelt≈18×10 -10M is obtained which is in excellent agreement with the dynamical finding given above. These results make it possible to predict the total number of minor planets in any unit interval of absolute magnitude H. Such predictions are compared with the observed distribution; the comparison shows that at present only about 10% of the asteroids with absolute magnitude H<14 have been discovered (according to the derived distribution, about 130,000 such asteroids are expected to exist).
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