Skywatchers can see debris from spectacular comet outburst this month
In October 2007, the otherwise underwhelming comet known as 17P/Holmes produced the most spectacular cometary outburst ever observed. Debris from this event will be visible this month to amateur telescopes in the Northern Hemisphere. Here is when and how to look for it.
Finnish astronomer Markku Nissinen remembers the days almost 15 years ago when skywatchers first noticed the intense brightening of the 2.1-mile-wide (3.4 kilometers) comet. Within days, the envelope of dust and gas surrounding the icy object, known as 17P/Holmes, was as wide as the sun, the comet’s brightness having increased a million times.
“We didn’t know what happened at that time,” Nissinen told Space.com. “It was really quite astonishing. Really surprising how it expanded. I have never seen anything like that since.”
17P/Holmes has fascinated Nissinen ever since.
“This comet is a Jupiter family comet, but it’s different from all the other Jupiter family comets we have seen,” said Nissinen. “In known history, this comet has produced three such [powerful] outbursts. None of the other Jupiter family comets has ever done this. There is something rather different about this one.”
There are about 600 known Jupiter family comets, ice rocks that follow elliptical orbits around the sun with their farthest points between the orbits of Mars and Jupiter. According to (opens in new tab) Swinburne University in Australia, Jupiter family comets tend to be rather faint as they visit the central solar system every 20 years or more. In the vicinity of the sun, the comets heat up and deplete the volatile compounds that are responsible for the creation of their bright cometary tails.
Astronomers don’t know what drove 17P/Holmes’ unusual outburst in 2007, but they hope that observing the cloud of dust and meteoroids the event produced could shed some light on that mystery.
The debris generated by the 2007 outburst of comet 17P/Holmes will be visible this summer to amateur telecopes. (Image credit: Finnish Geospatial Research Institute)
Earlier this year, Nissinen and Maria Gritsevich, a planetary scientist at the University of Helsinki in Finland, published a study that analyzed the trail of this cometary debris and determined its trajectory through space.
They found that this trail of dust and micro-meteoroids will be visible this summer even with amateur telescopes, and they are now encouraging skywatchers to turn their lenses toward the trail to help improve the understanding of the puzzling comet.
Earth will be crossing the orbital plane of the debris trail in mid-August, they said, but skywatchers will have to wait until after the full moon on August 11, as the moon’s light will outshine the dust.
Amateur astronomers with telescopes of at least 11-inch (30 centimeters) aperture fitted with CCD cameras should be able to spot the trails with a bit of technical skill, said Gritsevitch, adding that skywatchers should focus on the trails on two subsequent nights and then subtract the images to get rid of any noise.
“Most amateur astronomers can do it now,” she told Space.com. “People these days have advanced observational systems, and they know how to do image subtraction, so it’s relatively easy.”
Richard Miles, a British amateur astronomer who heads the Asteroids and Remote Planets Section of the British Astronomical Association, told Space.com in an email that the best time to try one’s luck at catching the trail would be after Aug. 22, when the moon sufficiently wanes.
“Sensitive cameras and fast focal ratio optics are required to detect the dust trail seen side-on as the Earth passes through the plane of 17P/Holmes’ orbit,” Miles wrote. “The surface brightness of the dust trail is extremely low at probably < 25 magnitude per square arcsecond of sky, which in a normal dark sky is only a few percent brighter than the background sky.”
Gritsevich and Nissinen published an update of their calculations as a paper to be presented at the Europlanet Science Congress in September. You can read the paper here (opens in new tab), including detailed coordinates about where to look for the trails.