Watching active volcanic eruptions should be done from a safe distance, and a group of California researchers has figured out how to do it from, ironically, Mauna Kea – one of Earth’s tallest volcanoes – using the W. M. Keck Observatory. Employing an ingenious combination of telescopic surveys and archival data, they have gathered nearly 40 distinct snapshots of effusive (slow) volcanic eruptions and high temperature outbursts on Jupiter’s tiny moon, Io, showing details as small as 100 km (60 miles) on the moon’s surface.
While space-based telescopes were once required for viewing surface details on Io – similar in size to our Moon, but more than 1,600 times distant – adaptive optics (AO), pioneered at Keck, allows teams like that led by Franck Marchis, a researcher at the Carl Sagan Center of the SETI Institute, to collect fascinating data on the wild show from Earth. Marchis presented results from ground-based telescopic monitoring of Io’s volcanic activity over the past decade this week, at the 2012 Division of Planetary Sciences Meeting of the American Astronomical Society.
Erupting volcanoes on Io cannot be seen well from beneath the Earth’s atmosphere using classical astronomical techniques. Io is a relatively small satellite with a 3,600 km diameter, more than 630 million kilometers away. In 1979, Voyager 1 visited the Jovian system, revealing Io’s dynamic volcanic activity from the first close-up pictures of its surface, capturing bizarre volcanic terrains, active plumes and hot spots. The Galileo spacecraft remained in orbit in the Jovian system from 1995 to 2003 and observed more than 160 active volcanoes and a broad range of eruption styles. Several outstanding questions remained in the post-Galileo era, and the origin and long-term evolution of Io’s volcanic activity is still not fully understood.
Quiescent activity of Io observed in 2010 and 2011 showing several quasi-permanent eruptions at 3.8 microns [bottom] and the absence of bright, hotter outbursts at 2.1 microns [top]. Credit: Franck Marchis, SETI Institute
In the meantime, astronomers designed instruments to break the “seeing barrier” and improve the image quality of ground-based telescopes. The blurring (“seeing”) introduced by the constant motion of the Earth’s atmosphere can be measured and corrected in real time using adaptive optics (AO), providing an image with a resolution close to the theoretical “diffraction limit” of the telescope. The W. M. Keck Observatory has used adaptive optics since 1999.
“Since our first observation of Io in 2001 using the Keck II 10-meter telescope and its AO system from Mauna Kea in Hawaii, our group became very excited about the technology. We also began using AO at the Very Large Telescope in Chile, and at the Gemini North telescope in Hawaii. The technology has improved over the years, and the image quality and usefulness of these AO systems have made them part of the essential instrument suite for large telescopes,” said Marchis.
Low in the evening sky a thin crescent Moon will be just 6° below Mars tonight. The Moon, only 10% illuminated, will be below and to the north of the planet. Tomorrow the pair will still be close, but the Moon will be above the planet.
There will be a very close conjunction of the Moon and Mercury this evening. A very thin moon, only 4% illuminated will pass the planet at a mere 42 arc-minutes separation. Taking into account the 30 arc-minute diameter of the Moon will leave Mercury less than 30 arc-minutes from the limb of the Moon. Mercury will be shining brightly at -0.2 magnitude, a nice match for the very young Moon. The pair will be about 15° above the horizon at sunset, allowing an excellent view of the conjunction.
A very young moon over Waikoloa, this is only 26 hours after new, visible to the unaided eye as a sliver in the fading glow of sunsetNew Moon will occur today at 02:02HST.
For those awake to see the early dawn a nice pairing of a brilliant Venus and a thin crescent Moon will grace the eastern sky. A 11% illuminated Moon will be about 6° from Venus. The pair will rise together about 03:32HST tomorrow morning, October 12th, and be over 35° above the horizon at sunrise.
A very young moon over Waikoloa, this is only 26 hours after new, visible to the unaided eye as a sliver in the fading glow of sunsetNew Moon will occur today at 16:11HST.
A brilliant planet and a thin crescent Moon will pair up in the dawn tomorrow morning, September 12th. Venus will be a bit under 4° from the Moon. The planet will make a nice pair with a 14% illuminated Moon. Look for the pair to rise about 03:00HST and be over 40%deg; above the horizon at sunrise.
