Stellar Life Cycle in Giant Galactic Nebula NGC edited by David L. Alles Western Washington University

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Stellar Life Cycle in Giant Galactic Nebula NGC 3603 edited by David L. Alles Western Washington University e-mail: alles@biol.wwu.edu

Introduction NGC 3603 is a giant HII region in the Carina spiral arm of the southern Milky Way, some 20,000 light years (6 kpc) away from our solar system. HII stands for ionized hydrogen. Gas clouds consist predominantly of hydrogen, the lightest and most abundant element in the universe. When exposed to ultraviolet radiation from hot stars the gas becomes ionized. Hydrogen atoms are stripped of their only electron, and the proton remains. While hydrogen atoms become ionized, ions recombine with free electrons to form again neutral atoms. When recombining the electrons emit light at characteristic wavelengths. NGC 3603 is actually only a dwarf among giant HII regions - there are other galaxies with much larger regions of this kind. But NGC 3603 is the closest giant HII region and the best resolved one. In fact it is the only giant HII region in our Galaxy that is visible at optical wavelengths. NGC 3603 has been the subject of many studies from the ground and space, but the high resolution of recent Hubble Space Telescope observations revealed a number of previously unknown features and nicely illustrates the complexity of this nearby starburst region.

In this stunning picture of the giant galactic nebula NGC 3603, the Hubble Space Telescope captures various stages of the life cycle of stars in a single view. (In PDF format this image can be enlarged for greater detail.)

To the upper left of center in the full image (centered in this enlargement) is the evolved blue supergiant called Sher 25. The star has a unique circumstellar ring of glowing gas that is a galactic twin to the famous ring around the supernova 1987A. The grayish-bluish color of the ring and the bipolar outflows (blobs to the upper right and lower left of the star) indicates the presence of chemically enriched material.

Supernova 1987A seen in infrared. (Image courtesy of NASA)

Near the center of view in the first full image is a so-called starburst cluster dominated by young, hot stars (upper left in this enlargement). A torrent of ionizing radiation and fast stellar winds from these massive stars has blown a large cavity around the cluster (to the right above).

The most spectacular evidence for the interaction of ionizing radiation with cold molecular-hydrogen cloud material are the giant gaseous pillars to the right and below the starburst cluster in the full image (the lower pillar is enlarged above). These pillars are sculptured by the same physical processes as the famous pillars photographed in the Eagle Nebula.

Dark clouds at the upper right corner of the full image are so-called Bok globules (enlarged above), which are probably in an earlier stage of star formation.

To the lower left of the starburst cluster in the full image are two compact, tadpole-shaped emission nebulae (pictured above center top and bottom). Similar structures are found in the Orion nebula, and have been interpreted as gas and dust evaporation from protoplanetary disks (proplyds). The pictured proplyds have sizes of 6,000 and 18,000 astronomical units. Our solar system is ~ 80 AU across, thus these proplyds are huge in comparison. The embedded stars have masses of 1 to 2 solar masses and are still accreting material from their surrounding disks.

Shown here is a teardrop shaped protoplanetary disk or proplyd in the Orion Nebula. (Image courtesy of NASA)

Thus the full view illustrates the entire stellar life cycle of stars, starting with the Bok globules and giant pillars, followed by proplyds and circumstellar disks, and progressing to massive stars in the young starburst cluster. The blue supergiant with its ring and bipolar outflow marks the end of the life cycle. The color difference between the supergiant's outflow and the interstellar medium in the giant nebula dramatically visualizes the enrichment in heavy elements due to synthesis of heavier elements within stars.

NGC 3603 photograph credits: Wolfgang Brandner (JPL/IPAC), Eva K. Grebel (Univ. Washington), You-Hua Chu (Univ. Illinois Urbana-Champaign), and NASA Web Reference http://hubblesite.org/newscenter/archive/1999/20/ ----------------------- This web paper was last updated 6/6/03. For further information on related topics go to: Cosmological Evolution http://fire.biol.wwu.edu/trent/alles/cosmic_evolution_index.html Alles Introductory Biology Lecture: Cosmological Evolution http://fire.biol.wwu.edu/trent/alles/101lectures_index.html David L. Alles Biology Home Page http://fire.biol.wwu.edu/trent/alles/index.html

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