News on interstellar matter
- Cygnus-X: the cool swan glowing in flight
- New molecules and star formation in the Milkyway
- The dust in the belt of Orion
- Missing dark matter in interstellar space around the Sun
- New 15meter telescope first ligth
- Tiny particles key to understanding early solar system
- New WISE catalog of entire infrared sky
- The Milkyway is full of bubbles
- Discovery of solid buckyballs in space
- Sources of rare Earth-elements found in space
- Dark clouds in Taurus
- Alien matter in the Solar system
- New mapping show cold gas and strange haze
- The sound of the universe
- Discovery of million degrees hot molecular gasses
- Most detailed infrared image of the Carina nebula
- An interstellar star-nursery
- Infrared image of the famous Helix-nebula
- Widefield infrared view of Milkyway's dust
- The smoky core of the Omega Nebula M17
- Star rebels against its parent cloud
- Observation of a cool gas-cloud being swallowed by black hole
- European astronomers discover cocoons of radiation in nebula
- SOFIA airborne observatory views star forming region W40
- The Cool Clouds of the Carina-nebula
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Interstellar waves in the Lagoon
Wednesday, 22 September 2010 13:30
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| Astronomy - Interstellar matter |
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The Hubble Space Telescope has taken this shot of waves in the Lagoon Nebula M8
This close-up shot of the centre of the Lagoon Nebula (Messier 8) clearly shows the delicate structures formed when the powerful radiation of young stars interacts with the hydrogen cloud they formed from. This image was created from exposures taken with the Wide Field Channel of the Advanced Camera for Surveys on Hubble. Light from glowing hydrogen (through the F658N filter) is coloured red. Light from ionised nitrogen (through the F660N filter) is coloured green and light through a yellow filter (F550M) is coloured blue. The exposure times through each filter are 1560 s, 1600 s and 400 s respectively. The blue-white flare at the upper-left of the image is scattered light from a bright star just outside the field of view. The field of view is about 3.3 by 1.7 arcminutes. Source: ESA's Hubble-homepage |
