The short dynamical lifetime of near-Earth objects (NEOs) compared to the age of the Solar System implies the existence of sources of replenishment in order to maintain the observed population of NEOs. Main belt asteroids and Jupiter family comets (JFCs), which can end up in typical NEO orbits via planetary perturbations and non-gravitational forces, are the most important sources of replenishment of NEOs. JFCs that become NEOs suffer accelerated loss of their near-surface volatiles, evolving into inactive "dormant" or "extinct" comets that are observationally indistinguishable from low albedo asteroids. Dynamically, however, they retain "comet-like" orbital characteristics. Knowledge of the fraction of extinct comets in the NEO population ...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The short dynamical lifetime of near-Earth objects (NEOs) compared to the age of the Solar System im...
The population of near-Earth objects comprises active comets and asteroids, covering a wide range of...
The population of near-Earth objects comprises active comets and asteroids, covering a wide range of...
We perform a search for dormant comets, asteroidal objects of cometary origin, in the near-Earth ast...
We perform a search for dormant comets, asteroidal objects of cometary origin, in the near-Earth ast...
Thesis: S.B., Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary...
The population of Near-Earth Objects (NEOs) is composed of small bodies of various origins. Ground-b...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The short dynamical lifetime of near-Earth objects (NEOs) compared to the age of the Solar System im...
The population of near-Earth objects comprises active comets and asteroids, covering a wide range of...
The population of near-Earth objects comprises active comets and asteroids, covering a wide range of...
We perform a search for dormant comets, asteroidal objects of cometary origin, in the near-Earth ast...
We perform a search for dormant comets, asteroidal objects of cometary origin, in the near-Earth ast...
Thesis: S.B., Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary...
The population of Near-Earth Objects (NEOs) is composed of small bodies of various origins. Ground-b...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...
The majority of Near Earth Objects (NEOs) originated in collisions between bodies in the main astero...