This series of deep images shows the small field surrounding the brightest SCUBA galaxy (CUDSS ) in this study at six wavelengths. From left to right, these images were taken at, first, R band using the Subaru telescope, then , , , and microns using IRAC, and finally at 24 microns using MIPS. The circle shows the area searched for potential counterparts to the SCUBA galaxy. At and microns there are multiple candidates. At visible wavelengths, the SCUBA galaxy is invisible -- presumably because it is screened by thick clouds of dust generated by the very rapid star form
This series of deep images shows the small field surrounding the brightest SCUBA galaxy (CUDSS ) in this study at six wavelengths. From left to right, these images were taken at, first, R band using the Subaru telescope, then , , , and microns using IRAC, and finally at 24 microns using MIPS. The circle shows the area searched for potential counterparts to the SCUBA galaxy. At and microns there are multiple candidates. At visible wavelengths, the SCUBA galaxy is invisible -- presumably because it is screened by thick clouds of dust generated by the very rapid star formation ongoing within it. But at long wavelengths there is only one candidate -- a strong source of emission at , and microns easily detected by Spitzer. This demonstrates how foreground galaxies, such as the bright object just left of bottom center in the R-band image, fade from view toward ever-longer wavelengths. This underlines the benefits of Spitzer observations for the continuing study of these enigmatic, high-redshift galaxies. Distant 22SCUBA22 Galaxy
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