Daily Archives: April 19, 2009

astronomy, spitzer space telescope, starbirth, UKIRT

A Seething Hotbed of Star Birth

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Another Peek at the Orion Nebula

It’s getting to be the time of year when the Orion Nebula isn’t readily available in the night sky because — well, it’s just not a sky sight for the next few months.  So, those of us who love to explore the nebula have to “make do” with the latest in professional studies of this busy, busy star birth region.

The Orion Molecular Cloud as seen by UKIRT and Spitzer Space Telescope. (Click to emiggen -- and you WANT to!)
The Orion Molecular Cloud as seen by UKIRT and Spitzer Space Telescope. (Click to embiggen -- and you WANT to!)

The kind folks at the United Kingdom Infrared Telescope (UKIRT), the IRAM Millimeter-wave Telescope in Spain,  and the orbiting Spitzer Space Telescope did a set of observations and combined them to create this stunning infrared image of the Orion Molecular Cloud. There’s a lot going on here —  star birth is NOT a serene event (just as human births aren’t exactly quiet, respectful events).

Let’s deconstruct this image. (You might want to right-click on it and open it in a new browser window to see all the details.)  First, the glowing green areas are clouds of gas and dust that are the seed material for stars. They’re usually made up of hydrogen gas and dust particles.  There are newborn stars in here — they glow in a sort of golden orange color and they’re heating up the cloud with their ultraviolet radiation. This causes the cloud to glow in a variety of wavelengths — some of them invisible to us — like infrared, which is what UKIRT, IRAM, and Spitzer are sensitive to.

So, it stands to reason that if you want to study the intricacies of star birth, you want to study the infrared light streaming from stellar nurseries.  It can cut right through most of the gas and dust in the region and give us a peek behind the clouds that often hide starbirth from us.

Newborn stars give off more than light and heat. They also emit jets during part of their infancy and childhood. Those jets shove their way out through the clouds and help sculpt the nebula.  In this image, the jets show up as tiny pink–purple arcs and dots.

A close-up of jets in the Orion Molecular Cloud (UKIRT WFCAM). (Click to embiggen.)
A close-up of jets in the Orion Molecular Cloud (UKIRT WFCAM). (Click to embiggen.)

To see the real action in this region, the astronomers took a close-up view of a jet streaming from a newborn star in one of the busier areas of star formation in this nebula.  The image was created from data acquired by the Wide Field Camera (WFCAM) at the United Kingdom Infrared Telescope.

The jet is in red, and you can see other objects — wisps, knots and filaments — that are also jets from other young stars. .

What I find cool about studying regions like the OMC is that at the same time they give us a look at star formation in the current age of the universe, they also give us a look back at the birth pangs of our own Sun and solar system some 4.5 billion years ago.  Some of the baby stars you see popping out here will someday BE like the Sun — and maybe even have their own planets.