Astronomy and Astrophysics – Astrophysics – Galaxy Astrophysics
Scientific paper
2009-03-13
Astronomy and Astrophysics
Astrophysics
Galaxy Astrophysics
58 pages, 25 figures, submitted to ApJ
Scientific paper
We identify, categorize, and quantify alignment effects among host and satellite galaxies using a spectroscopically-confirmed, low-redshift (z<0.23) galaxy sample from the Sloan Digital Sky Survey Data Release 6. Consistent with other recent findings, we find that satellite galaxies (SGs) of red, centrally concentrated (elliptical) host galaxies (HGs) with radial velocity separation |Delta_V|<600 km/s preferentially reside near the projected major axes of their HGs. Among these, this preference is strongest for highly concentrated, red SGs. We find that fractional anisotropy increases with decreasing \Delta_V and Delta_R and is nearly 40% greater among the closest SGs (Delta_R<250 kpc/h) relative to more distant (Delta_R>500 kpc/h) SGs. For highly concentrated SGs at small (<300 kpc/h) projected separation, we observe a strong radial (hostward) alignment signal in isophotal position angles (PAs) due to isophotal twisting and contamination that is not present when using galaxy model PAs. Among objects for which both isophotal and galaxy model PAs agree to <15 degrees, this elongation signal is significantly weaker. We also investigate the "Holmberg Effect," a well-known result wherein nearby (<40 kpc/h) SGs of large, inclined spiral HGs were seen to preferentially reside near the minor axes of their HGs. Survey limitations preclude a strict test of this effect using only SDSS spectroscopic galaxies. By adopting a looser set of cuts than those of Holmberg's study, we recover a comparable preference among faint blue SGs for the HG minor axis at marginal significance (~3 sigma). We conclude that several types of alignment likely exist among different galaxy populations, but that the observed nature and strength of alignment trends depend sensitively on both selection criteria and on the method used to determine galaxy orientation.
Gaudi Scott B.
Ryden Barbara S.
Siverd Robert J.
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