Astronomy and Astrophysics – Astrophysics
Scientific paper
2005-03-21
Astrophys.J. 635 (2005) 35-59
Astronomy and Astrophysics
Astrophysics
accepted in ApJ; 24 pages, color figures; new data added for SDSS0924, PG1115, and B1422; discussion in Section 6 trimmed for
Scientific paper
10.1086/497324
When the source in a 4-image gravitational lens lies close to a "fold" caustic, two of the lensed images lie close together. If the lens potential is smooth on the scale of the separation between the two close images, then the difference between their fluxes should approximately vanish, Rfold = (F1-F2)/(F1+F2) \approx 0. Violations of this "fold relation" in observed lenses are thought to indicate the presence of structure on scales smaller than the separation between the close images. We study the fold relation and find it to be more subtle and rich than was previously realized. The degree to which Rfold can differ from zero for realistic smooth lenses depends not only on the distance of the source from the caustic, but also on its location along the caustic, and on the angular structure of the lens potential. Thus, it is impossible to say from Rfold alone whether observed flux ratios are anomalous or not. Instead, we must consider the full distribution of Rfold values that can be obtained from smooth potentials that reproduce the separation between the two close images and the distance to the next nearest image. We analyze the generic and specific features of this distribution, and then show that 5 of the 12 known lenses with fold configurations have flux ratio anomalies: B0712+472, SDSS 0924+0219, PG 1115+080, B1555+375, and B1933+503. Combining this with our previous analysis revealing anomalies in 3 of the 4 known lenses with cusp configurations, we conclude that at least half (8/16) of all 4-image lenses that admit generic, local analyses exhibit flux ratio anomalies indicative of small-scale structure. The fold and cusp relations do not reveal the nature of the implied small-scale structure, but do provide the formal foundation for substructure studies. [Abridged]
Gaudi Scott B.
Keeton Charles R.
Petters Arlie O.
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