TY - JOUR
T1 - The lunar phases of dust grains orbiting Fomalhaut
AU - Min, M.
AU - Kama, M.
AU - Dominik, C.
AU - Waters, L.B.F.M.
PY - 2010
Y1 - 2010
N2 - Optical images of the nearby star Fomalhaut show a ring of dust orbiting the central star. This dust is in many respects expected to be
similar to the zodiacal dust in the solar system. The ring displays a clear brightness asymmetry, attributed to asymmetric scattering of
the central starlight by the circumstellar dust grains. Recent measurements show that the bright side of the Fomalhaut ring is oriented
away from us. This implies that the grains in this system scatter most of the light in the backward direction, in sharp contrast to the
forward-scattering nature of the grains in the solar system. In this letter, we show that grains considerably larger than those dominating
the solar system zodiacal dust cloud provide a natural explanation for the apparent backward scattering behavior. In fact, we see the
phases of the dust grains in the same way as we can observe the phases of the Moon and other large solar system bodies. We outline
how the theory of the scattering behavior of planetesimals can be used to explain the Fomalhaut dust properties. This indicates that
the Fomalhaut dust ring is dominated by very large grains. The material orbiting Fomalhaut, which is at the transition between dust
and planetesimals, can, with respect to their optical behavior, best be described as micro-asteroids.
AB - Optical images of the nearby star Fomalhaut show a ring of dust orbiting the central star. This dust is in many respects expected to be
similar to the zodiacal dust in the solar system. The ring displays a clear brightness asymmetry, attributed to asymmetric scattering of
the central starlight by the circumstellar dust grains. Recent measurements show that the bright side of the Fomalhaut ring is oriented
away from us. This implies that the grains in this system scatter most of the light in the backward direction, in sharp contrast to the
forward-scattering nature of the grains in the solar system. In this letter, we show that grains considerably larger than those dominating
the solar system zodiacal dust cloud provide a natural explanation for the apparent backward scattering behavior. In fact, we see the
phases of the dust grains in the same way as we can observe the phases of the Moon and other large solar system bodies. We outline
how the theory of the scattering behavior of planetesimals can be used to explain the Fomalhaut dust properties. This indicates that
the Fomalhaut dust ring is dominated by very large grains. The material orbiting Fomalhaut, which is at the transition between dust
and planetesimals, can, with respect to their optical behavior, best be described as micro-asteroids.
U2 - 10.1051/0004-6361/200913065
DO - 10.1051/0004-6361/200913065
M3 - Comment/Letter to the editor
SN - 0004-6361
VL - 509
SP - L6/1-L6/3
JO - Astronomy and Astrophysics
JF - Astronomy and Astrophysics
ER -