Journal
ASTROPHYSICAL JOURNAL
Volume 678, Issue 2, Pages 974-984Publisher
UNIV CHICAGO PRESS
DOI: 10.1086/529512
Keywords
ISM : clouds; ISM : molecules; molecular processes; shock waves
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Photometric maps, obtained with the Spitzer Infrared Array Camera (IRAC), can provide a valuable probe of warm molecular hydrogen within the interstellar medium. IRAC maps of the supernova remnant IC 443, extracted from the Spitzer archive, are strikingly similar to spectral line maps of the H-2 pure rotational transitions that we obtained with the Infrared Spectrograph (IRS) instrument on Spitzer. IRS spectroscopy indicates that IRAC bands 3 and 4 are indeed dominated by the H-2 v = 0-0 S(5) and S(7) transitions, respectively. Modeling of the H-2 excitation suggests that bands 1 and 2 are dominated by H-2 v = 1-0 O(5) and v = 0-0 S(9). Large maps of the H-2 emission in IC 443, obtained with IRAC, show band ratios that are inconsistent with the presence of gas at a single temperature. The relative strengths of IRAC bands 2, 3, and 4 are consistent with pure H-2 emission from shocked material with a power-law distribution of gas temperatures. CO vibrational emissions do not contribute significantly to the observed band 2 intensity. Assuming that the column density of H-2 at temperatures T to T + dT is proportional to T-b for temperatures up to 4000 K, we obtained a typical estimate of 4.5 for b. The power-law index, b, shows variations over the range similar to 3-6 within the set of different sight lines probed by the maps, with the majority of sight lines showing b in the range 4-5. The observed power-law index is consistent with the predictions of simple models for paraboloidal bow shocks.
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