Firstly, apologies that it’s been over a month since last posting to Astroengine.com. Call it slacking off, call it a sabbatical, either way, it’s not good. I’ve actually prepared several half-finished articles, but I just never got around to completing them. However, I have been on writing overdrive over at Discovery News, so if I go quiet over here, you know where to find me.
Speaking of Discovery News, I’ve just posted an incredible image of the heart of the Orion Nebula as seen by the Spitzer Space Telescope, so I can’t think of a better way to kick-start Astroengine with an image filled with awesomeness.
Although Spitzer has entered a new phase of operations since it depleted the liquid helium coolant used to maintain its instrumentation, that doesn’t mean its stopped producing some awe-inspiring imagery. In a new vista released on Thursday, a bustling star formation region in Orion is detailed, showing some 1,500 young stars the observatory watched for 40 days. This is an unprecedented study, allowing rapid variations in these baby stars to be tracked by Spitzer.
Young stars are generally highly variable in their brightness, a characteristic that is of huge interest to astrophysicists. If we can understand the mechanisms causing this variation, we can gain an insight to stellar evolution, possibly even understanding the history of our own Solar System.
As Spitzer observes in infrared wavelengths, it’s very sensitive to clouds of dust being heated by these young stars. Therefore, the proto-planetary disks surrounding these million year old stars glow brightly. Not only does this give an indication to the conditions surrounding the star, it also provides astronomers with an idea to how these disks of dust clump together, slowly evolving into exoplanets. And now Spitzer has data sets spanning weeks, dynamic changes in the emissions from the stars and their evolving planetary systems can be studied.
But science aside, the Spitzer imagery is a thing of beauty, reminding us how complex our cosmos really is. Don’t believe me? Take a look for yourself (click the pic to dive right in):