Journal
ASTROPHYSICAL JOURNAL
Volume 636, Issue 2, Pages L101-L104Publisher
IOP PUBLISHING LTD
DOI: 10.1086/500129
Keywords
infrared : ISM; ISM : clouds; ISM : structure; radiative transfer; scattering
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We discuss the possibility of mapping interstellar clouds at unprecedentedly high spatial resolution by means of near-IR imaging of their scattered light. We calculate the scattering of the interstellar radiation field by a cloud model obtained from the simulation of a supersonic turbulent flow. Synthetic maps of scattered light are computed in the J, H, and K bands and allow us to make an accurate estimate of column density, in the range of visual extinction between 1 and 20 mag. We provide a formalism to convert the intensity of scattered light at these near-IR bands into a total gas column density. We also show that this new method of mapping interstellar clouds is within the capability of existing near-IR facilities, which can achieve a subarcsecond spatial resolution. This opens up new perspectives in the study of interstellar dust and gas structure on very small scales. The validity of the method has been recently demonstrated by the extraordinary images of the Perseus region that were obtained by Foster & Goodman and that motivated this investigation.
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