Optically Identified Supernova Remnants in the Nearby Spiral Galaxies NGC 5204, NGC 5585, NGC 6946, M81, and M101
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Abstract
We present the results of an optical search for supernova remnants (SNRs) in the spiral galaxies NGC 5204, NGC 5585, NGC 6946, M81, and M101. Using the criterion that emission nebulae with [S II]/Hα ≥ 0.45 are identified as SNRs, we found three SNRs in NGC 5204, five in NGC 5585, 27 in NGC 6946, 41 in M81, and 93 in M101. Including the 35 SNRs recently detected in NGC 2403 by Matonick et al., we have doubled the current number of galaxies that have been well searched for SNRs and increased the number of known extragalactic SNRs by about 50%. Since no SNRs were detected inside H II regions and because our optical search appears biased against detecting large, faint SNRs, we estimate that there could be 4 times more SNRs in each of our target galaxies than we detected. Statistical analysis of the spatial distribution of detected SNRs indicates that those in NGC 2403, M81, and M101 are associated with star-forming regions (e.g., H II regions, spiral arms, and molecular clouds), suggesting that a significant fraction of the detected SNRs are the result of SN II or SN Ib/c explosions. Thirty-one SNRs found in these six galaxies have estimated diameters greater than 100 pc, which is larger than is possible for a single SNR in an interstellar medium of density ~0.1-1 cm-3. Such objects are probably combinations of multiple SNRs and massive stellar winds.