The structure function of opacity fluctuations is a useful statistical tool to study tiny scale structures of neutral hydrogen. Here we present high-resolution observation of H I absorption toward 3C 138, and estimate the structure function of opacity fluctuations from the combined VLA, MERLIN, and VLBA data. The angular scales probed in this work are ∼10-200mas (about 5-100AU). The structure function in this range is found to be well represented by a power law S τ(x) ∼ x β with index β ∼ 0.33 ± 0.07 corresponding to a power spectrum P τ(U) U ∼ -2.33. This is slightly shallower than the earlier reported power-law index of ∼ 2.5-3.0 at ∼ 1000AU to few pc scales. The amplitude of the derived structure function is a factor of ∼ 20-60 times higher than the extrapolated amplitude from observation of Cas A at larger scales. On the other hand, extrapolating the AU scale structure function for 3C 138 predicts the observed structure function for Cas A at the pc scale correctly. These results clearly establish that the atomic gas has significantly more structures in AU scales than expected from earlier pc scale observations. Some plausible reasons are identified and discussed here to explain these results. The observational evidence of a shallower slope and the presence of rich small-scale structures may have implications for the current understanding of the interstellar turbulence. © © 2012. The American Astronomical Society. All rights reserved..
CITATION STYLE
Roy, N., Minter, A. H., Goss, W. M., Brogan, C. L., & Lazio, T. J. W. (2012). Tiny scale opacity fluctuations from VLBA, Merlin, and VLA observations of HI absorption toward 3C 138. Astrophysical Journal, 749(2). https://doi.org/10.1088/0004-637X/749/2/144
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