A multi-scale study of infrared and radio emission from Scd galaxy M33
Jan, 2007
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Abstract: (arXiv)
We investigate the energy sources of the infrared (IR) emission and their relation to the radio continuum emission at various spatial scales within the Scd galaxy M33. We use the wavelet transform to analyze IR data at the Spitzer wavelengths of 24, 70, and 160m, as well as recent radio continuum data at 3.6cm and 20cm. An H map serves as a tracer of the star forming regions and as an indicator of the thermal radio emission. We find that the dominant scale of the 70m emission is larger than that of the 24m emission, while the 160m emission shows a smooth wavelet spectrum. The radio and H maps are well correlated with all 3 MIPS maps, although their correlations with the 160m map are weaker. After subtracting the bright HII regions, the 24 and 70m maps show weaker correlations with the 20cm map than with the 3.6cm map at most scales. We also find a strong correlation between the 3.6cm and H emission at all scales. Comparing the results with and without the bright HII regions, we conclude that the IR emission is influenced by young, massive stars increasingly with decreasing wavelength from 160 to 24m. The radio-IR correlations indicate that the warm dust-thermal radio correlation is stronger than the cold dust-nonthermal radio correlation at scales smaller than 4kpc. A perfect 3.6cm-H correlation implies that extinction has no significant effect on H emitting structures.- METHODS DATA ANALYSIS
- ISM DUST
- HII REGIONS
- INFRARED GALAXIES
- RADIO CONTINUUM GALAXIES
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