The Hungaria asteroids are interior

The Hungaria asteroids are interior to the main asteroid belt, with semimajor axes between 1.8 and 2 AU,
low eccentricities and inclinations of 16–35. Small asteroids in the Hungaria region are dominated by a
collisional family associated with (434) Hungaria. The dominant spectral type of the Hungaria group is
the E or X-type (Warner et al. [2009]. Icarus, 204, 172–182), mostly due to the E-type composition of
Hungaria and its genetic family. It is widely believed the E-type asteroids are related to the aubrite
meteorites, also known as enstatite achondrites (Gaffey et al. [1992]. Icarus, 100, 95–109). Here we
explore the hypothesis that aubrites originate in the Hungaria family. In order to test this connection,
we compare model Cosmic Ray Exposure ages from orbital integrations of model meteoroids with those
of aubrites. We show that long CRE ages of aubrites (longest among stony meteorite groups) reflect the
delivery route of meteoroids from Hungarias to Earth being different than those from main-belt asteroids.
We find that the meteoroids from Hungarias predominantly reach Earth by Yarkovsky-drifting across the
orbit of Mars, with no assistance from orbital resonances. We conclude that the CRE ages of aubrites are
fully consistent with a dominant source at the inner boundary of the Hungaria family at 1.7 AU. From
here, meteoroids reach Earth through the Mars-crossing region, with relatively quick delivery times
favored due to collisions (with Hungarias and the inner main-belt objects). We find that, after Vesta,
(434) Hungaria is the best candidate for an asteroidal source of an achondrite group.