Optically Selected Superthin Galaxies Remain Thin in the Near-infrared
Abstract
We investigate whether galaxies identified as superthin in optical images remain superthin in the near-infrared (NIR), and how their extreme disk morphology is related to environment. From a nearby volume-limited sample, we select 210 superthin galaxies using two-dimensional bulge/disk decomposition of SDSS r-band images, requiring the disk component to have a major-to-minor axis ratio a/b>9. We measure disk shapes from SDSS griz to UKIDSS JHK bands. Both the major- and minor-axis scales decrease from the optical to the NIR, reaching 0.6 of their r-band values in the K band, but the disk axis ratio remains nearly unchanged. Thus, optically selected superthin galaxies remain superthin in the NIR, implying that the old stellar populations traced by NIR light do not form a prominent thick disk. Reanalysis of our sample and a previous superthin sample shows that earlier reported NIR thickening is mainly due to a magnitude- and band-dependent bias in one-dimensional fitting. We further compare their environments with matched control samples using projected cross-correlations, reconstructed local overdensities, and large-scale-structure classifications. Superthin galaxies show lower clustering on 0.1--1\,h-1\,Mpc scales and lower overdensities at 1\,h-1\,Mpc, but no clear residual dependence on large-scale-structure type. These results suggest that superthin galaxies are preferentially central galaxies in relatively low-mass dark matter halos, consistent with a picture in which high host-halo spin helps build and preserve extended, vertically thin stellar disks.
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