H-ALPHA AND FAR-INFRARED EMISSION WITHIN THE EARLY-TYPE SPIRAL GALAXY M81

被引:44
作者
DEVEREUX, NA
JACOBY, G
CIARDULLO, R
机构
[1] NATL OPT ASTRON OBSERV, TUCSON, AZ 85726 USA
[2] PENN STATE UNIV, UNIVERSITY PK, PA 16802 USA
关键词
D O I
10.1086/117591
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
New H alpha imaging observations have revealed the morphology of the emission-line gas and permitted the first measurement of the total H alpha luminosity for the early type spiral galaxy M81. The total H alpha luminosity of M81 is (1.7+/-0.5)X10(7)L.. The H alpha luminosity is dominated by emission from H II regions that are distributed approximately in an elliptical ring with a major axis diameter of 11 arcmin. A significant percentage, similar to 17%, of the total H alpha emission is associated with a curious feature in the central 3 arcmin of M81 that is best described as a nuclear spiral. A wide variety of sources that may be responsible for ionizing the nuclear spiral are evaluated including massive stars, old post-AGB stars, shocks, planetary nebulae, and x-rays. The H alpha image is compared with a high resolution far-infrared image, obtained with the Infrared Astronomical Satellite (IRAS), in order to constrain the contribution of O and B stars to the far-infrared luminosity of M81. The correspondence between the H alpha and far-infrared morphology is striking when both images are convolved to a common resolution of 105 arcsec. The far-infrared luminosity, L(FIR), and the H alpha luminosity, L(H alpha), have been measured at 85 independent locations within M81 and the histogram of L(FIR)/L(H alpha) ratios is remarkably similar to that determined for Galactic H II regions. Approximately 75% of the far-infrared luminosity of M81 is radiated by dust with temperatures greater than expected for cirrus, but similar to the temperatures measured by IRAS for Galactic and extragalactic H II regions. The results indicate that the majority, similar to 70%, of the far infrared and H alpha luminosity of M81 is produced by high mass stars located in the star forming ring. The origin of the remaining 30% of the far-infrared and H alpha luminosity, that is co-extensive with the bulge, is ambiguous in that it could be powered equally well by young massive stars or old bulge stars. (C) 1995 American Astronomical Society.
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页码:1115 / 1128
页数:14
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