by Lauren Weiss | Sep 21, 2011 | Guides, Personal Experiences
When we dream of other worlds, there is one thing that drives our fantasies of life above all else: water. Most organisms on Earth rely on this molecule for survival. Although we might imagine life forms that do not require water, planets with water are the most obvious places to search for life—or at least for life as we know it.Thus, the discovery of the first potential “water world” in 2009 was a turning point in exoplanet science. At the time, I was a senior at Harvard University working with David Charbonneau, whose team and their robotic telescopes discovered the super-Earth GJ 1214b when it transited its star. In a Nature publication, Dave describes the discovery.The planet is just the right density to be made entirely of water. However, the discovery of GJ 1214b only suggests its watery nature; the planet could have a dense, rocky core and a large but light atmosphere of hydrogen and helium instead.To distinguish between these possibilities, several groups have performed transmission spectroscopy. This technique measures the starlight that passes through the planet’s atmosphere while the planet transits its star. By measuring the light transmitted at different wavelengths, it is possible to construct a spectrum of the planet’s atmosphere. Absorption and emission lines in the spectrum can reveal chemicals in the atmosphere.Counter-intuitively, the scientists studying GJ 1214b are not looking for spectral lines due to water. Models show that adding water vapor to the atmosphere of GJ 1214b would flatten the spectrum, smearing out all features. However, a high layer of clouds could also produce such a spectrum, so a flat spectrum does not...
by Susanna Kohler | Sep 21, 2011 | Career Navigation, Personal Experiences
Odds are, if you’re doing research, you’ve experienced a research slump. The bad news is that this is fairly unavoidable: it happens to everyone. The good news is that there are tricks you can try to help get yourself out of the slump and become more productive and efficient. Read on to find out more!
by Nathan Sanders | Sep 19, 2011 | Daily Paper Summaries
We can use galaxy clusters for many different science goals, but first we need to figure out where they are.
by Astrobites | Sep 18, 2011 | Undergraduate Research
Here’s the second installment in our series featuring undergraduate research!
by Courtney Dressing | Sep 15, 2011 | Daily Paper Summaries
Wolfgang & Laughlin combine observations from the HARPS radial velocity survey and the Kepler transit survey to investigate the mass-radius-period distribution of exoplanets. They find that most small planets are rocky.
