Astronomy and Astrophysics – Astronomy
Scientific paper
Dec 2004
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004xmm..pres...10.&link_type=abstract
XMM Press Release PhR 10-2004
Astronomy and Astrophysics
Astronomy
Scientific paper
hi-res
Size hi-res: 1058 Kb Credits: ESA/NASA, ESO and Danny LaCrue
Symphony of colours in the Tarantula The Tarantula is situated 170 000 light-years away in the Large Magellanic Cloud (LMC) in the southern sky and is clearly visible to the naked eye as a large milky patch. Astronomers believe that this smallish irregular galaxy is currently going through a violent period in its life. It is orbiting around the Milky Way and has had several close encounters with it. It is believed that the interaction with the Milky Way has caused an episode of energetic star formation - part of which is visible as the Tarantula Nebula.
Just above the centre of the image there is a huge cluster of very hot stars called R136. The stars in R136 are also among the most massive stars we know. R136 is also a very young cluster, its oldest stars being 'just' 5 million years old or so. Its smallest stars, however, are still forming, so astronomers observe R136 to try to understand the early stages of stellar evolution. Near the lower edge of the image we find the star cluster Hodge 301. Hodge 301 is almost 10 times older than R136. Some of the stars in Hodge 301 are so old that they have already exploded as supernovae. The shockwave from this explosion has compressed the gas in the Tarantula into the filaments and sheets that are seen around the cluster.
This mosaic of the Tarantula Nebula consists of images from the NASA/ESA Hubble Space Telescope’s Wide Field and Planetary Camera 2 (WFPC2) and was created by 23 year old amateur astronomer Danny LaCrue. The image was constructed by 15 individual exposures taken through three narrow-band filters allowing light from ionised oxygen (501 nm, shown as blue), hydrogen-alpha (656 nm, shown as green) and ionised sulphur (672 nm, shown as red). The exposure time for the individual WFPC2 images vary between 800 and 2800 seconds in each filter. The Hubble data have been superimposed onto images taken through matching narrow-band filters with the European Southern Observatory’s New Technology Telescope at the La Silla Observatory, Chile.
The Tarantula Nebula, also known as 30 Doradus, is situated 170 000 light-years away in the Large Magellanic Cloud (LMC) in the southern sky and is clearly visible to the naked eye as a large milky patch. Astronomers believe that this smallish, irregular galaxy is currently going through a violent period in its life cycle. It is orbiting the Milky Way and has had several close encounters with it. It is believed that the interaction with the Milky Way has caused an episode of energetic star formation - part of which is visible as the Tarantula Nebula. The Tarantula is the largest stellar nursery we know in the local universe. In fact if this enormous complex of stars, gas and dust were at the distance of the Orion Nebula it would be visible during the day and cover a quarter of the sky.
Over the years the NASA/ESA Hubble Space Telescope has returned again and again to observe this interesting region of the sky and in this way Hubble has built up an archival treasure of more than a thousand images and spectra of the Tarantula. A few weeks ago, 23 year old amateur astronomer Danny LaCrue sifted through the data and found that 15 of the exposures made with Hubble’s Wide Field and Planetary Camera 2 could be combined to create a beautiful mosaic of the central parts of the unique Tarantula.
Danny submitted his image to the Hubble European Space Agency Information Centre in the hope that the image could be shared with a wider audience. “I always wondered what it would be like to create the pictures from Hubble, but I never imagined that I would one day actually get to make one myself”.
Driven by his interest in astronomy and graphical design and excited at the prospect of processing real images taken by Hubble, Danny recently downloaded the ESA/ESO/NASA Photoshop FITS Liberator from the Spacetelescope.org website. The FITS Liberator is a software tool released six months ago that enables laypeople to work with the somewhat special format of astronomical images (called the FITS format, short for Flexible Image Transport System).
“Once I became familiar with all the steps of creating colour images from raw astronomical data, I was able to have fun with the details of the process. Desperately wanting more objects to process, I realized I needed to learn how to navigate and use the somewhat intimidating ESO/ST-ECF Hubble archive. However after trying a few object queries and requests for data, the whole process became much less daunting”, says Danny LaCrue.
“The Liberator is an invaluable tool and does a splendid job at giving normal people access to the wonderful resource that Hubble has been for the scientific community for almost 15 years. Converted to a colour image those inaccessible 1's and 0's in the original data appeal to our visual sense, and connect us, on a very personal level, to the Universe around us,” he adds.
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