Yearly Archives: 2010

Milky Way Galaxy

Cosmic Exploration

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Starting in Our Own Galaxy

The Milky Way from Cerro Paranal, home to European Southern Observatory's Very Large Telescope. Courtesy ESO/H.H. Heyer.

It’s been a tumultuous November and I’m glad that December is finally here. I spent much of last month on travel, hence my light posting schedule. But, now I’m back and catching up on something I LOVE to do:  read about astronomy.

A sample of Wally Pacholka's amazing astrophotography. Click on the image to see a gallery of images accompanying Ken Croswell's article. Linked to by permission of National Geographic as part of a review.

Top of my pile was an amazing article in the December 2010 National Geographic by Ken Croswell called “Star Struck.” It’s illustrated by well-known astrophotographer Wally Pacholka and also includes views of our galaxy from the great observatories.

No matter how many times I look at astro-images, the cosmos still takes my breath away. And, that’s kind of what it does for Ken, too.  His article explores the Milky Way in lovely, poetic detail.  Not for Ken (or me) the pedantic descriptions of our home galaxy.  To my delight, he uses language that draws a great picture in your mind of this behemoth galaxy we call home:

“It’s hard to be modest when you live in the Milky Way.

Our galaxy is far larger, brighter, and more massive than most other galaxies. From end to end, the Milky Way’s starry disk, observable with the naked eye and through optical telescopes, spans 120,000 light-years. Encircling it is another disk, composed mostly of hydrogen gas, detectable by radio telescopes. And engulfing all that our telescopes can see is an enormous halo of dark matter that they can’t. While it emits no light, this dark matter far outweighs the Milky Way’s hundreds of billions of stars, giving the galaxy a total mass one to two trillion times that of the sun. Indeed, our galaxy is so huge that dozens of lesser galaxies scamper about it, like moons orbiting a giant planet.”

The article goes on to talk about the details of the Milky Way, derived from astronomy’s most recent explorations of it. Modern research is telling us a lot about the galaxy, and in particular, the action of its central, supermassive black hole in tossing stars out of our galaxy via its gravitational influence on binary pairs.  like You don’t have to be a scientist immersed in the detailed study of the Milky Way and its place in the hierarchy of cosmic structure  to appreciate knowledge like this.  It’s fascinating stuff. And, made even more so by writing like Ken’s and images like Wally’s.  Go check out the article and immerse yourself in the Milky Way!


Mars, Mars Reconnaissance Orbiter

Silica “Implants” on Mars

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Tell Us It Used to be Wet and Warm

Light-colored mounds of a mineral deposited on a volcanic cone more than three billion years ago may preserve evidence of one of the most recent habitable microenvironments on Mars. Courtesy NASA

Mars exploration just continues to turn up more surprises all the time. Recent observations from the Mars Reconnaissance Orbiter uncovered evidence of mineral deposits of what’s called “hydrated silica” on the Martian volcano Nili Patera.  This is a form of silica that has some amount of water in its composition, which implies the existence of water.

The deposits are on the flanks of the volcanic cone and are startling evidence that there was a hydrothermal environment in that area at one time. Hydrothermal is a term that implies heated water or steam, which had minerals such as silica dissolved in it.  To get this deposit, Mars had to have heat and water — just the sort of cozy environment where life has always flourished on Earth.  While we don’t see evidence of life on Mars, the fact that hydrothermal environments once existed means that the places where life could evolve and thrive did exist on Mars, in the very distant past. This is yet another discovery that adds a data point to our continuing search for and confirmation of Mars’s watery and possibly warmer past.