TY - JOUR
T1 - Early-type stars
T2 - Most favorable targets for astrometrically detectable planets in the habitable zone
AU - Gould, Andrew
AU - Ford, Eric B.
AU - Fischer, Debra A.
N1 - Funding Information:
Work by A. G. was supported by JPL contract 1226901. E. B. F. was supported in part by NASA grant NAG5-10456 and the EPIcS SIM Key Project.
PY - 2003/7/10
Y1 - 2003/7/10
N2 - Early-type stars appear to be a difficult place to look for planets astrometrically. First, they are relatively heavy, and for fixed planetary mass the astrometric signal falls inversely as the stellar mass. Second, they are relatively rare (and so tend to be more distant), and for fixed orbital separation the astrometric signal falls inversely as the distance. Nevertheless, because early-type stars are relatively more luminous, their habitable zones are at larger semimajor axis. Since astrometric signal scales directly as orbital size, this gives early-type stars a strong advantage, which more than compensates for the other two factors. Using the Hipparcos Catalog, we show that F and A stars constitute the majority of viable targets for astrometric searches for planets with semimajor axes currently in the habitable zone. Thus, astrometric surveys are complementary to transit searches, which are primarily sensitive to habitable planets around late-type stars.
AB - Early-type stars appear to be a difficult place to look for planets astrometrically. First, they are relatively heavy, and for fixed planetary mass the astrometric signal falls inversely as the stellar mass. Second, they are relatively rare (and so tend to be more distant), and for fixed orbital separation the astrometric signal falls inversely as the distance. Nevertheless, because early-type stars are relatively more luminous, their habitable zones are at larger semimajor axis. Since astrometric signal scales directly as orbital size, this gives early-type stars a strong advantage, which more than compensates for the other two factors. Using the Hipparcos Catalog, we show that F and A stars constitute the majority of viable targets for astrometric searches for planets with semimajor axes currently in the habitable zone. Thus, astrometric surveys are complementary to transit searches, which are primarily sensitive to habitable planets around late-type stars.
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U2 - 10.1086/377147
DO - 10.1086/377147
M3 - Article
AN - SCOPUS:0141725739
SN - 0004-637X
VL - 591
SP - L155-L158
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 2 II
ER -