The Meteor Storms of November – Part II – The Leonids
November 16, 2008
The Leonids are the meteor storm-producing shower against which all other showers are measured. Most years the Leonids are a rather minor shower producing up to 15 meteors per hour, but on occasion they can produce some of the most spectacular meteor displays ever seen.
Comet 55P/Tempel-Tuttle, The Leonid Parent Comet
The Leonids are the result of dust released by Comet Tempel-Tuttle. Similar to the stories of the discoveries of Comets Encke (parent of the Taurids) and Biela (parent of the Andromedids), Comet Tempel-Tuttle was observed a few times before its periodic nature was noted. The first sighting happened way back in 1366 when the comet was observed by Chinese astronomers. Though the Chinese reported very accurate positions of the comet, especially impressive in an age without telescopes, the science of computing comet orbits had not yet been invented. Hence, there was no way to for them to know if this comet could return.
Fast forwarding a little over 3 centuries, Gottfried Kirch of Guben, Germany, finds a new comet on the night of 1699 October 26. Unfortunately, the comet is no where to be found on later nights. We now know that this was Comet Tempel-Tuttle and it was moving to the south so rapidly that the comet was not observable from Germany on the nights after Kirch’s discovery.
The comet would have to wait another ~167 years before it was found again. This time two of the 19th centuries premiere comet hunters, Ernest W. L. Tempel (Marseille, France) and Horace P. Tuttle (Cambridge, MA), found the comet almost 3 weeks apart. Tempel found the comet first on the night of 1865 December 19. Since news traveled slow in those days, the comet was independently discovered by Tuttle on 1866 January 9 before the news of Tempel’s discovery reached America. Not only was the periodic nature of the comet recognized at that time but so was its association with the Leonid meteors.
The comet resides on an orbit that spans from just inside the orbit of the Earth (0.98 AU) to slightly beyond the orbit of Uranus (19.7 AU). It takes the comet ~33 years to orbit the Sun. The the comet last passed perihelion (closest distance to the Sun) in 1998 and was well observed at that time.
The Leonids Roar
The first recorded appearance of the Leonids was in 902 AD when the shower was seen from Italy and Egypt. For the next few centuries, impressive Leonid displays were observed every 33 to 200 years or so.
Two Leonid storms stand out from all the others. On 1833 November 13, the entire eastern United States was awaken to a sight very few had every seen. The sky appeared to be filled with meteors. Modern researchers now know the cause of this outburst. It is estimated that a rate of up to ~70,000 meteors per hour was observed. That works out to ~20 meteor per second.
The 1833 storm marks the dawning of the modern age of meteor science. It was due to observations of this storm that astronomers first recognized that meteors originate in space. About 30 years later, after the discovery of Comets Swift-Tuttle (parent of the Perseids) and Tempel-Tuttle (the parent of the Leonids), the connection between comets and meteor showers was made.
The 1833 storm ranks as one of the 2 best meteor displays in recorded history. 133 years after the 1833 storm, the Leonids once again set the skies ablaze. On the night of 1966 November 17, the western United States experienced a storm just as strong as the 1833 storm.
When the comet returned in 1998, there were many predictions for spectacular Leonid activity. Though meteor rates never got close to that seen in 1833 or 1966, rates as high as a few thousand meteors per hour were observed in multiple years. The best meteor shower I have ever seen was the 1998 Leonid fireball display. Though I would observe Leonid displays with much higher rates of meteors, the sheer number of extremely bright meteors in 1998 was breathtaking.
Predictions for the 2008 Leonids
Now that it is over 10 years since the perihelion of Comet Tempel-Tuttle, what can we expect. In most years when the comet is not in the vicinity of Earth (which is true this year) the Leonids are a nice but relatively light shower with rates up to 15 meteors per hour.
This year the peak is predicted for the morning of November 17. But there are 2 predictions for enhanced activity this year. The International Meteor Organization summarizes this year’s prediction with the following taken from their 2008 Meteor Calendar:
The Leonids may produce just a normal maximum close to their ‘traditional’ nodal time in 2008, on November 17, around 09h UT, though the bright waning Moon will be a severe problem if so. However, Mikhail Maslov proposed that the shower may show a peak with ZHRs ~ 130 at 00h22m UT on November 17 in WGN 35:1 (2006, p. 7), with meteors brighter than average. Many of his other model calculations for the Leonids in the period 2001 — 2006 showed some differences to what was actually observed, so while this this is an interesting possibility for 2008, its accuracy is unknown and unproven. Jérémie Vaubaillon finds instead two potential stream encounters, centred on November 17 at 01h32m UT (1466 trail; ZHR most uncertain — perhaps ~ 50, but maybe ~ 25 — 100) and November 18 at 21h38m UT (1932 trail; ZHR possibly ~ 20 at best?). Checking on all these times (or any others that may be suggested subsequently) will be difficult due to the Moon, but valuable.
What does this mean? Most of us, especially in the United States, will only see the “normal” maximum on the morning of November 17 with low rates due to the bright Moon. For those located throughout Eurasia, one, two or three of the possible outbursts may be observable. The Leonids are best observed in the hours before sunrise and will appear to radiate from the western part of the constellation of Leo.
As for the future, we may have seen the end of the great Leonid storms. The orbits of the Leonids and Comet Tempel-Tuttle are slowly moving away from Earth due to the gravity of the planets. Though there may be Leonid displays with meteor rates as high as hundreds to a few thousand per hour around the time of Comet Tempel-Tuttle’s next perihelion in 2031, there will be no great storms. There is a possibility of one last hurrah for the Leonids around the time of its perihelion in 2131.