A team of international scientists using the W. M. Keck Observatory has made the most detailed examination yet of the atmosphere of a Jupiter-size planet beyond our Solar System.
According to lead author Quinn Konopacky, an astronomer with the Dunlap Institute for Astronomy & Astrophysics, University of Toronto and a former Lawrence Livermore National Laboratory (LLNL) postdoc, “We have been able to observe this planet in unprecedented detail because of Keck Observatory’s advanced instrumentation, our ground-breaking observing and data processing techniques, and because of the nature of the planetary system.” The paper appears online March 14th in Science Express, and March 22nd in the journal Science.
“This is the sharpest spectrum ever obtained of an extrasolar planet,” said co-author Bruce Macintosh, an astronomer at LLNL. “This shows the power of directly imaging a planetary system—the exquisite resolution afforded by these new observations has allowed us to really begin to probe planet formation.”
Artist’s rendering of the planetary system HR 8799 at an early stage in its evolution. Credit: Dunlap Institute for Astronomy & Astrophysics
The team, using the OSIRIS instrument fitted on the mighty Keck II telescope on the summit of Mauna Kea, Hawaii, has uncovered the chemical fingerprints of specific molecules, revealing a cloudy atmosphere containing water vapor and carbon monoxide. “With this level of detail,” says coauthor Travis Barman, an astronomer at the Lowell Observatory, “we can compare the amount of carbon to the amount of oxygen present in the atmosphere, and this chemical mix provides clues as to how the planetary system formed.”
There has been uncertainty about how planets in other solar systems formed, with two leading models, called core accretion and gravitational instability. When stars form, they are surrounded by a planet-forming disk. In the first scenario, planets form gradually as solid cores slowly grow big enough to start absorbing gas from the disk. In the latter, planets form almost instantly as parts of the disk collapse on themselves. Planetary properties, like the composition of a planet’s atmosphere, are clues as to whether a system formed according to one model or the other.
I got pleasant surprise walking past the newspaper box on my way to lunch. The Honolulu Star-Advertiser published one of my photos across the top of the front page!
My laser night panorama on the front cover of the Honolulu Star -AdvertiserI do not usually buy a copy of the Star- Advertiser, I made an exception today. Debbie Goodwin is working with the folks at the newspaper to get publicity for Keck Week. In the process sent them one of the photos I had provided her.
This is not actually one photo, but a panorama assembled from several shots. It was a nice night, if very cold, the first light of dawn just visible on the eastern horizon. Overhead the laser competed with the light of a bright moon. We were doing tests of the newly commissioned Keck 1 laser when I had a chance to get up on the roof and take some photos. Over the radio I begged Heather to lower the bottom shutter on Keck 1 so I could see the telescope inside the dome. I then took about 15 thirty second shots spanning the full view from our roof.
As cold as it was to shoot, it was also a pain to assemble, I worked on this one for hours to get it right. Only about 180° is shown on the newspaper, the original is a full 360°. The result was worth the effort, for your viewing pleasure I have re-posted the full version below. Click on the image to get a larger version…
A moonlit panorama from the roof of Keck during a night of laser engineering
The W. M. Keck Observatory has successfully completed a $4 million campaign that will give astronomers the most detailed Adaptive Optics images of the cosmos ever created by mankind. Furthermore, the campaign was funded entirely by private philanthropy.
With an upcoming open house, everyone around the observatory is frantically trying to get everything in place. There will be all manner of science exhibits throughout the observatory headquarters complex. Exhibits about our research, controlling the telescopes, an IR camera display (Get your portrait in IR!), liquid nitrogen ice-cream, just a lot of fun.
A two mirror laser spirograph buildI am coordinating an exhibit we named Optics Lab… As you would expect, most of the exhibits in our area teach basic optics, light, lenses, etc. Understanding light and optics is a basic skill in a large observatory. We will have a few lenses on rails, a laser ray-trace table with acrylic lenses, an exhibit on polarization, and even a simple laser interferometer.
When attempting to teach something, a little eye-candy is helpful to catch the attention of the audience, particularly kids. Our group includes a laser engineer and a laser tech, so the use of lasers was obvious. There is little that catches the eyes of a kid faster than a bright laser beam. One of the first ideas they tossed on the table was a laser spirograph. After a few moments thought the answer was clear… I can build that!
Schematic for the SpiroLaser control PCBTime to dig about in the scrap box! Actually more than a few boxes in my case, I am a bit of an electronics pack rat. A green laser module… Check! Small DC motors… Check! A few voltage regulators… Check! A couple potentiometers… Check! First surface mirrors… Check! In an hour of rummaging about I quickly located everything that was needed.
It does appear that we got a substantial amount of snow last night. Webcam images show quite a bit of snow. No tracks either, no one has attempted the summit yet, the snowplows have not made it up.
I am not scheduled to go up today, or even again this week. Fresh snow can be pretty, shoveling snow? Not so much. Actually, I expect that the summit crew will be sitting at Hale Pohaku much of the morning, waiting for the plows to complete their job, not the most productive way to spend the day.
The snow is expected to last through today and into tomorrow. The White Mountain should be white for a while.
Fresh snow atop Mauna Kea, the first good storm of 2013
