Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Non-zero Yarkovsky acceleration for near-Earth asteroid (99942) Apophis
View through CrossRef
AbstractThe leading source of uncertainty to predict the orbital motion of asteroid (99942) Apophis is a non-gravitational acceleration arising from the anisotropic thermal re-emission of absorbed radiation, known as the Yarkovsky effect. Previous attempts to obtain this parameter from astrometry for this object have only yielded marginally small values, without ruling out a pure gravitational interaction. Here we present an independent estimation of the Yarkovsky effect based on optical and radar astrometry which includes observations obtained during 2021. Our numerical approach exploits automatic differentiation techniques. We find a non-zero Yarkovsky parameter, A2 = (−2.899 ± 0.025) × 10−14 au d−2, with induced semi-major axis drift of (−199.0 ± 1.5) m yr−1 for Apophis. Our results provide definite collision probability predictions for the close approaches in 2029, 2036, and 2068.
Springer Science and Business Media LLC
Title: Non-zero Yarkovsky acceleration for near-Earth asteroid (99942) Apophis
Description:
AbstractThe leading source of uncertainty to predict the orbital motion of asteroid (99942) Apophis is a non-gravitational acceleration arising from the anisotropic thermal re-emission of absorbed radiation, known as the Yarkovsky effect.
Previous attempts to obtain this parameter from astrometry for this object have only yielded marginally small values, without ruling out a pure gravitational interaction.
Here we present an independent estimation of the Yarkovsky effect based on optical and radar astrometry which includes observations obtained during 2021.
Our numerical approach exploits automatic differentiation techniques.
We find a non-zero Yarkovsky parameter, A2 = (−2.
899 ± 0.
025) × 10−14 au d−2, with induced semi-major axis drift of (−199.
0 ± 1.
5) m yr−1 for Apophis.
Our results provide definite collision probability predictions for the close approaches in 2029, 2036, and 2068.
Related Results
OSIRIS-APEX: NASA's Apophis Explorer Mission
OSIRIS-APEX: NASA's Apophis Explorer Mission
Introduction: NASA’s Origins, Spectral Interpretation, Resource Identification, and Security– Regolith Explorer (OSIRIS–REx) mission characterized and collected a sample from aster...
Concepts for a German Small Sat Mission to (99942) Apophis
Concepts for a German Small Sat Mission to (99942) Apophis
Due to the increased performance of small satellites, their use in the exploration of asteroids is becoming increasingly more important. The DART mission with the CubeSat LICIACube...
 DROID: A mission concept to accompany and characterize Apophis through its 2029 Earth closest approach
 DROID: A mission concept to accompany and characterize Apophis through its 2029 Earth closest approach
<p><strong>Introduction:</strong>&#160; The close approach of asteroid (99942) Apophis on April 13, 2029 presents a unique opportu...
Keyhole-Based Site Selection for Kinetic Impact Deflection of Near-Earth Asteroids
Keyhole-Based Site Selection for Kinetic Impact Deflection of Near-Earth Asteroids
Given present-day asteroid discovery capabilities, near-Earth asteroids (NEAs) are routinely discovered. 3,123 NEAs were discovered in 2024 alone1. Furthermore, new telescopes such...
Optimal Kinetic-Impact Geometry for Asteroid Deflection
Optimal Kinetic-Impact Geometry for Asteroid Deflection
<p><strong>Introduction</strong></p>
<p>Kinetic impact is recognized as an e&#64256;ective and feasibl...
VISTA Payload for ESA RAMSES Mission
VISTA Payload for ESA RAMSES Mission
The 2029 close approach of near-Earth asteroid (99942) Apophis offers a rare and scientifically valuable opportunity to study the physical and compositional response of a small bod...
Modelling thermal effects on eccentric asteroids: application to Didymos
Modelling thermal effects on eccentric asteroids: application to Didymos
The Hera mission, which will reach the Didymos system in December 2026, allows for a unique opportunity to study the thermal effects acting on a small body. Among these, the Yarkov...
Revised analytic theory of the Yarkovsky force
Revised analytic theory of the Yarkovsky force
. IntroductionThe Yarkovsky effect is a recoil force from the emitted thermal radiation that causes a slow change of asteroids’ orbits [1]. Its evolutionary significance ...