The Oort spike modification due to non-gravitational effects

Abstract

This is the third of a series of papers on investigating the non-gravitational effects in the motion of long-period comets. The influence of the non-gravitational effects on the original and future orbital elements, and in particular on reciprocals of semimajor axes is analyzed.The new orbit determinations were performed in a homogenous way using the basic collection of 50 nearly-parabolic comets of first class orbits. The data consist of 23 hypothetically hyperbolic comets (sample I), 8 Oort spike comets (sample II), and 19 'old' comets (sample III). The original and future reciprocals of semimajor axes for each comet were calculated for strictly gravitational case and the non-gravitational case in a fully consistent way. Clear shift of the original reciprocals of semimajor axes toward the more elliptical orbits is demonstrated. The average values of the original and future energy changes due to the non-gravitational acceleration are derived for each of three samples independently. Omission of the NG effects significantly affects the position and width of the Oort spike. The shift of the Oort spike position from the standard 1/aori value of 2-4 x 10-5 AU-1 to the value greater than 5.5 x 10-5 AU-1 is discussed.

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