A Super Discovery, 05.11.12

NASA’s Spitzer Space Telescope has made another monumental discovery: a “super-Earth.”

Twice as big as Earth, the super-Earth is, for now, called 55 Cancri e, and is situated in the constellation Cancer, about 41 light years away. For the first time, scientists were able to actually measure the light emanating (reflected) from the planet itself, instead of measuring how much light it blocks as it transits in front of its star. Because of the low measure­ments that were taken, scientists guess that the planet is probably very dark most of the time. It appears to be tidally locked, though (one side is stuck facing its star), and that side appears to have temperatures in excess of 3,000 Fahrenheit. Just so we’re clear on how hot that is, most kinds of metal will be liquid at that temperature.

Based on their observations, scientists are saying the planet most likely has a rocky core and is covered with water. Be­cause of the extreme heat on the sunny side, however, the water is probably in a “supercritical” state, where it exists as both liquid and gas. NASA claims the atmosphere is covered with steam. Regardless, the atmosphere appears to be very thin, as it is doing such a poor job of blocking its sun’s heat.

Based on all observations made at this point, the planet cannot support life.

Read more from NASA.

No Doubt: a Super-Earth in a Habitable Zone, 02.03.12

Humans have wondered throughout history if there is life out­side of Earth. Is it possible for it to exist elsewhere? Could there really be planets hundreds and thousands of light years away that have their own life forms on them? It is very difficult to tell.

One of the first criteria astronomers say a planet must meet is to be in the habitable zone (or, life zone) of the star around which it orbits. This is a region that is determined based on the size and temperature of the star, which would render the temperature on the planet at a happy sort of medium. It would not be so hot that everything would dry out and die, and it would not be so cold that it would become a frozen world. Hundreds of planets have been discovered outside of our own solar system, and some of them seem promising, but until now, there has always been a margin of doubt. Most of the planets discovered either missed the mark entirely or were situated just on the fringe of their life zone. A study led by the private nonprofit research organization, the Carnegie Institu­tion for Science, happened to stumble across one particular planet that leaves no doubt about its orbit. Meet GJ 667Cc.

CREDIT: Carnegie Institution for Science

This particular planet has been termed a “super-Earth” be­cause it is about 4.5 times as massive as our own planet. The gravity there would feel greatly multiplied compared to that on Earth, but there is no doubt that this terrestrial planet is smack in the middle of its habitable zone. It is situated rela­tively close by in the constellation Scorpio, about 22 light-years away.

One other interesting fact about the planet that is leaving as­tronomers puzzled is it is in orbit around a triple star system, all of which are lacking heavier elements typical of stars with their own solar systems. GJ 667Cc only orbits one of those stars, but it would still be rather odd to see three in the sky, we think.

Information credit: SPACE.com

Top 11 in 2011, 12.30.11

2011 has been a tremendous year for astronomy. It has been a marvelous year for discoveries, yet we look forward to the future as the space program evolves to continue without the space shuttles. Here at the Wetherbee Planetarium, we would like to take a moment to reflect on some of our favorite stories we covered this past year.


11. Diamonds in the Sky, originally published 08.29.11. A diamond planet companion was found orbiting J1719-1438. How is that for twinkle?


10. De Blob, it glows!, originally published 08.19.11. Lyman-alpha blob 1 (LAB-1), a giant, intergalactic green blob, was discovered. No one knows what it is, but it is big, it glows, and it is green. We think that is pretty awesome.


9. The sky is falling!, originally published 09.14.11. The Upper Atmosphere Research Satellite (UARS) took a spiraling descent back to Earth over late September-early October, mostly breaking apart and burning in the atmosphere.


8. A Geriatric Non-Planet, Non-Asteroid…Thing…, originally published 04.04.11. The gargantuan asteroid Vesta was visited by NASA’s Dawn mission in July of this year for a photoshoot rendezvous.


7. “Spinstars” May Have Helped Seed the Universe, originally published 05.02.11. Astronomers working with the Very Large Telescope (VLT) theorized the existence of “spinstars,” possibly the fastest rotating objects in the universe.


6. Gamma Ray Flares in Binary Star are a Mystery, originally published 07.07.11. A binary star system in January and February of this year was found emitting gamma ray flares as a companion pulsar grazed through the Be-class star’s gaseous disc.


5. “It’s Alive!” Zombie Satellite Galaxy 15 Springs Back to Life, originally published 01.04.11. Rebellious satellite-gone-rogue Galaxy 15 came to its senses and rebooted after months of failing to respond to commands and joyriding.


4. Life-Friendly Zones in the Galaxy?, originally published 09.30.11. Astronomers theorized the possibility of a “life zone” or area in galaxies that is most likely to support life as we know it.


3. Hubble Celebrates Millionth Observation, originally published 07.12.11. The Hubble Space Telescope made its historic millionth observation of outer space, a spectroscopic observation of planet HAT-P-7b.


2. The Star of Bethlehem, originally published 12.20.10, reprinted 12.20.11. The staff at the Wetherbee Planetarium delved into possible explanations for one of the most iconic symbols of the Christmas season.


1. Launch Week: Last Flight of Space Shuttle Endeavour Scheduled Friday, originally published 04.25.11. NASA set the launch date for the last flight of space shuttle Endeavour, one of the final missions for the shuttle program.


So, what do we expect for 2012? NASA’s Dawn mission will wrap up its study of Vesta, the Russian Phobos-Grunt mission will make its descent back to Earth after its failed launch, Kepler is confident about the odds of finding an Earth-like planet in the life zone, and the biggest non-event: the supposed “alignment with the core of the galaxy” on December 21. Here’s to 2012!

Deep space planet confirmed in "life zone," 12.09.11

A planet roughly 2.4 times the size of Earth has been discovered orbiting its star in the “life zone” or “habitable zone.” Found by NASA’s Kepler mission, the planet is in a solar system approximately 600 light-years away.

Image credit: NASA/Ames/JPL-Caltech

The “life zone” is the sort of “sweet spot” around a star that is neither too hot nor too cold for water to exist in its liquid form, and consequently, for life as we know it to thrive on any planets that may be in that region. The star in the system is G-class star, like our own, but a little bit smaller, so the life zone around it is about the same region as the distance between the orbits of Venus through Mars, as illustrated in this diagram here.

The planet, thus far only referred to as Kepler 22b, is almost 2 1/5 times the size of Earth, and orbits its star a bit closer than Earth does, but having passed this first investigatory hurdle, astronomers will be studying it even more closely to try to determine what manner of planet it may be. As of yet, they do not know whether it is terrestrial (made of rock and soil like Mercury through Mars), covered in liquid (like Uranus and Neptune), or composed of gaseous clouds (like Jupiter and Saturn).

Credit: NASA.

Life-friendly zones in the galaxy? 09.30.11

With all the changes happening in the sciences lately, it is no small wonder that astronomers are beginning to re-think the “big picture” in their theories. For centuries, humans have wondered about the possibility of life elsewhere in the universe, and since the advancement of space technology, the hunt has become ever more insistent. Yet, with each little hint of the possibility of life, one or more factors always seem to be missing. Some astronomers are now beginning to reformulate their search plans and not look just for other solar systems elsewhere, but try to determine if there are specific areas throughout our galaxy that are more life-friendly.

In every solar system, depending on the class of the central star(s), there is a certain distance away from the center that is the most temperate area for supporting life as we know it. This zone is usually referred to by astronomers as the life zone, “habitable zone,” or even the “Goldilocks zone,” because it is not too hot or too cold. For instance, in our solar system, Mercury and Venus are much closer to our own sun, and as such experience much higher average temperatures year-round. Jupiter, Saturn, Uranus, and Neptune are all much, much further away from the sun than Earth, and are all much colder. Astronomers are still very hopeful about the possibility of life on Mars.

Image credit: NASA/JPL-Caltech/ESA/CXC/STScI.

So, if there is a specific life zone in every solar system, does the same rule apply for galaxies? Some astronomers are beginning to believe so, arguing that the centers of galaxies tend to be much more metal-heavy, which is much more conducive to planetary formation, so the odds are in favor of a planet forming with life on it. The flipside of the argument, however, is that the centers of galaxies also tend to be home to more supernovae. While all the constant light would be annoying, any life on planets in the galactic center would have to worry about much more serious problems like ozone depletion and literally having the planet fried by all manner of ray emissions from the multitude of stars. For now, the researchers will continue to scan the center of our own galaxy (pictured here) for more evidence and see how their theories unfold.

Credit: SPACE.com.

Forecast: a 100% chance of life, 10.08.10

20 Light-years away in the constellation Libra, there is a planet orbiting in a solar system much like our own. This planet, dubbed GL(Gliese)581 g, has five companion planets orbiting in almost circular paths with it around its red dwarf star, a star that astronomers are calling “immortal” because it is at such a level of stability that it could go on shining indefinitely. GL581g is about three or four times the mass of our Earth, is probably rocky, and may even be able to sustain an atmosphere. There is a very solid chance that it has liquid, usable water on it. Pending confirmation, this planet may have one other very important similarity to our own planet: it may have life.


“…The chances of life on this planet are 100 percent,” said University of California astronomy professor Steven Vogt. “I have almost no doubt about it.” Another astronomer, Sara Seager, of the Massachusetts Institute of Technology, has said “it really is monumental if you accept this as the first Earth-like planet ever found in the star’s habitable zone.” The “zone” Seager was referring to is an area that is the measure of distance away from a star that a planet must be in order to maintain a moderate enough temperature to support life. Get too close, and everything on the planet gets fried. Too far away, and everything stays permanently frozen. GL581g is in just the right position that it’s neither too hot nor too cold for life as we know it to dwell.


“It’s a bigger deal then most people think,” says staff astronomer at Thronateeska Heritage Center, Jim Friese. “It [alien life] might be just mold or fungus, it’s doesn’t matter. Life on another world could have an impact on human societies and change our priorities… This is the kind of discovery that drives science to achieve the impossible.”


Credit: SPACE.com

Martian soil reexamined for possible life-supporting compounds, 09.10.10

What was previously thought to be a contaminate is now being viewed by NASA scientists as a new way to search for evidence of life on Mars. Scientists are reexamining results from the 1970s Viking missions against data collected in 2008 from the Phoenix Mars Lander, and are questioning whether to re-think their methods of searching for life on other planets.


The situation arose through the discovery of two chemicals—chloromethane and dichloromethane—classified as organics, which were previously thought to be contaminates when they were found in Martian soil. The Phoenix Lander is causing scientists to reexamine the discovery of these two chemicals through the consideration of another chemical—perchlorate—that has been found to destroy the evidence of the two organics. By heating the perchlorate, it becomes a strong oxidant and destroys the other chemicals, which means NASA could have had evidence of life over 30 years ago but missed it.


Further study will be conducted in 2012 with the launch of the Curiosity Rover. Curiosity will rove all over the planet and conduct soil sample tests, checking for organics and using different methods of analysis. Its alternative methods of analysis will help determine whether data from previous missions was destroyed through the testing methods that were conducted.


“This doesn’t say anything about the question of whether or not life has existed on Mars, but it could make a big difference in how we look for evidence to answer that question,” said NASA researcher Chris McKay.

Planet hunters find treasure trove and Thronateeska astronomer believes planet could be in crucial "life zone," 08.27.10

Astronomers at the European Southern Observatory have made one of the most exciting discoveries of the decade this week. In the constellation Hydrus, 127 light years away, five planets have been discovered orbiting the star HD 10180, with a possibility of two more planets. Jim Friese, staff astronomer at Thronateeska Heritage Center, believes one of the planets could be in the “life zone,” the area of space that is just the right distance from its sun for life to be sustained on the planet.


The star is very similar to our own, and the planets orbiting around it are thought to be much like Neptune. The sixth planet (when confirmed) is thought to be similar to Saturn. This solar system is unique because the planets all have circular orbits and are much closer to their sun than the planets in our solar system are to our star. The system also contains one of the smallest exoplanets ever discovered, one that is only 1.4 times the mass of our own earth. This discovery could greatly increase astronomers’ knowledge of how planets affect their stars and vice versa.


NASA also made an announcement this week that its own planet-hunting efforts have resulted in its Kepler Mission discovering two planets transiting, or crossing in front of, the same star, Kepler-9. The planets have been named Kepler-9b and Kepler-9c. Both planets have masses similar to the planet Saturn. An announcement was also made yesterday that there may be a third planet orbiting Kepler-9. It is only 1.5 times earth’s mass and is very close to the star, possibly making a complete orbit of its sun every 1.6 days.