Tau Herculid meteors: Best images and video

Tau Herculid meteors: Best images and video

Tau Herculid meteors: Worth watching!

The much-anticipated Tau Herculid meteor shower put on a fine display overnight on May 30-31, 2022, although the hoped-for meteor storm did not materialize. Hourly counts ranged from 10 to 25. The peak of the shower appeared around 5 UTC (midnight CT), as predicted. These meteors were generated during the 1995 breakup of periodic comet 73P/Schwassman-Wachmann 3 (SW3). When a comet breaks up, it litters its orbit with debris. Earth passed through this region of debris Monday night … giving us a chance for a meteor storm. But there were many unknowns, and the storm didn’t happen, although many saw a decent meteor shower. Thanks to all who contributed meteor showers to our community photo page!

The Tau Herculids from Ohio

View at EarthSky Community Photos. | Brian Mollenkopf in Lancaster, Ohio created this beautiful composite image from photos taken during the Tau Herculid meteor shower on May 30, 2022. Brian wrote: “Composite image (11 PM to 1:30 AM) of the Tau Herculid meteor shower from last night. This image is facing west (light pollution from Lancaster, Ohio USA).” Thank you, Brian!

The Tau Herculids from Canada

View at EarthSky Community Photos. | Joel Weatherly in Edmonton, Alberta, Canada, caught a glimpse of the Tau Herculid meteors on May 30, 2022, and wrote: “This evening, I watched for the possible meteor storm with debris from 73P/Schwassman-Wachmann 3. While a full-blown meteor storm did not precipitate, I did manage to catch a few Tau Herculid meteors. It was still a great excuse to get out and do some stargazing.” Thank you, Joel!

View at EarthSky Community Photos. | David Cox captured the essence of last week’s Tau Herculid meteor display in this composite image. He wrote: “Composite of 25 meteor streaks captured over 68 minutes during the May 31 Tau Herculid meteor shower. The photograph was taken on the boardwalk of the Spruce Bog hiking trail in Algonquin Provincial Park, an excellent dark sky region of Ontario Canada. Although the potential meteor storm did not transpire, there were numerous short meteor streaks visible under the dark sky to provide good viewing entertainment.” Your photo matches most reports we’ve heard, David … about 25 meteors/ hour. Thank you, David!

The Tau Herculids from North Carolina

View at EarthSky Community Photos. | Luciana Caballero in Mebane, North Carolina caught a glimpse of the Tau Herculid meteors on May 31, 2022, and wrote: “Even though the meteor storm didn’t occur I still enjoyed being outside in the middle of the night. A chatty owl kept my company through the stargazing event.” Thank you, Luciana!

The Tau Herculids from Alabama

View at EarthSky Community Photos. | Matt Lantz in Gulf Shores, Alabama caught this impressive photograph of a Tau Herculid meteor on May 30, 2022, and wrote: “On vacation at Gulf Shores, Alabama, provided a nice dark sky to view the Tau Herculid meteor shower. It certainly over-performed from what is usually expected, but overall only saw about 10 meteors over about an hour and a half. Luckily, I captured one of them streaking in front of the Milky Way! Made it worth staying up late.” Thank you, Matt!

The Tau Herculids from Arizona

View at EarthSky Community Photos. | Caroline Haldeman in Flagstaff, Arizona, caught this incredible array of the Tau Herculid meteors on May 31, 2022, and wrote: “There were several “meteor watch parties” going on all around my neighborhood, and it was so fun and neat hearing everyone’s collective “Ohs!” & “Wows!” and excited comments and gasps as the meteors fell. It was just like watching a 4th of July show, but it was provided by Mother Nature! :)” Thank you, Caroline!

View at EarthSky Community Photos. | Jeff Grubbs in Elgin, Arizona took this serene photograph of two meteors during the Tau Herculid meteor shower on May 30, 2022, and wrote: “What was billed as an all or nothing event turned out to be a pleasant little meteor shower. I headed out to the Empire Ranch near Elgin, Arizona, to set up for the evening. While most of the meteors were dim and short, there were a few overachievers.” Thank you, Jeff!

The Tau Herculids from California

View at EarthSky Community Photos. | Rob Colatutto in Julian, California, took this beautiful composite photograph of the Tau Herculid meteors on May 30, 2022, and wrote: “Composite of two foreground exposures, 26 meteor exposures, and a milky way exposure taken right after the last meteor frame.” Thank you, Rob!

The Tau Herculids from Morocco

View at EarthSky Community Photos. | Khalid Guerdou in Khenifra, Morocco, took this photograph of two meteors during the Tau Herculid meteor shower on May 31, 2022, and wrote: “We were trying to photograph the Monday Night meteor shower and captured this. Two meteors, one to the right and the other in the left of the image.” Thank you, Khalid!

The Tau Herculids from Puerto Rico

Kevinizooropa on YouTube wrote:

Although there was no meteor storm, the Tau Herculids provided a moderate meteor shower. Images taken from Puerto Rico by the Sociedad de Astronomia del Caribe (Astronomical Society of the Caribbean) show some of the meteors. These are related to the fragmentation of comet 73P/Schwassmann-Wachmann, which spread some particles very close to Earth’ orbit. The meteors were captured on the night of May 30-31, 2022. The SAC said:

Our cameras captured a lot more, but these are just a few of the meteors seen over the island.

Tau Herculid observer reports

The Western Hemisphere had favorable conditions for this event and reports poured in from many locations. Joe Rao, observing from western Arizona, observed 19 meteors in two hours, while his wife Renate saw 26. Joe commented:

The meteors did happen as predicted but not in the numbers that people were hoping for.

EarthSky writer Dave Adalian, observing from near Visalia, California, saw 7 shower member meteors and noted that they had a reddish tint. His skies had a Bortle Rating of 4.5.

Robert Lansford, Association of Lunar and Planetary Observers Meteor Section Recorder and contributor to EarthSky, observed from near the town of Alpine in southern California. He saw about 35 shower meteors and called it a “nice display” and described it as “steady with some bursts.” The brightest meteor he saw was magnitude -2 and appeared copper-colored.

From Don Machholz’ observing location in western Arizona, around the time of the peak, bright meteors increased in numbers as fainter meteors decreased. Don said:

I watched for telescopic meteors, those not visible to the eye but hopefully observable using my 10-inch reflecting telescope, at a magnification of 50 and a field of view of 1.8 degrees, I counted the number of meteors I observed. I saw three, magnitudes 7, 8, and 10, between 3:52 a.m. and 4:08 a.m. UT. Between 4:10 and 4:20 UT only one, magnitude 12, was observed. And none were seen from 4:34 to 4:50, and between 5:07 and 5:23.

Meteors before May 30-31

As last weekend began – Friday night, May 27, 2022 – something unexpected occurred concerning the Tau Herculid meteor shower. Meteors began to fall. They were not bright but were picked up by the Cameras for Allsky Meteor Surveillance (CAMS) survey. On May 27, five meteors were detected with enough cameras to determine the radiant. On May 28, seven more shower members were detected. And on May 29, 12 more were seen.

The meteors prior to the main shower were also reported by Denis Vida (@meteordoc on Twitter):

 

Where did the other meteors come from?

Going into the weekend only three meteor shower peaks were being considered:

Material left over from the comet when it was here in 1892 would be visible on May 30, about 16 UTC.

Material from the comet’s visit in 1897 would be visible on May 31, about 10 UTC.

And material from the breakup of the comet in 1995.  Some predicted this would be a major shower.

The shower caused by the 1892 visit of the comet to our inner solar system materialized per a tweet by Ye Quanzhi.

But what caused the meteors that fell on May 27 through 29? Astronomers had not predicted there would be any and so they will be researching this over the next few months.

As darkness descended over the land on the evening of Monday, May 30, the question remained: Will the debris trail from the 1995 breakup of Periodic Comet 73P/Schwassmann-Wachmann 3 appear in our skies too?

An infrared image of the broken comet 73P/Schwassman-Wachmann 3 (SW3) in 2006, skimming along its trail of debris. The flame-like objects are the icy comet fragments and their tails. The dusty comet trail is the line bridging the fragments. Earth passed through this region of space overnight on May 30-31, 2022. We hoped for a meteor storm as fragments of the broken comet entered our atmosphere! And there were meteors from the comet … but no storm. Image via NASA’s Spitzer Space Telescope.

What could possibly go wrong?

For there to have been a good meteor shower overnight on May 30-31, 2022, three key factors must fall into place.

First, a large number of particles must have been expelled from the comet’s nucleus during its 1995 breakup. This appears to have happened, as images taken at that time indicate.

Second, the breakup of the comet would have had to eventually push the material forward in its orbit. As a comet orbits the sun and ejects material, let’s assume that particles go in all directions. Those pushed backward will assume a slower speed and – governed by the laws of gravity – they’ll fall closer to the sun. Since they’re now closer to the sun, they will speed up. And, in time, they’ll pass by the comet on their smaller orbits and get ahead of the comet. Images from the 2006 passage of the comet show:

… Large chunks in a temporary orbit behind one of the larger fragments.

Finally, the comet must eject the material at a speed fast enough to assume this new orbit. A speed of about 60 miles per hour (97 km/hour) is necessary to pull this off. This is faster than typical, but the major outburst and breakup of the comet’s nucleus in 1995 might have been strong enough to produce this speed.

If all three of these conditions had been met, we would have had the perfect storm.

So, since there was not a storm, why not? Astronomers do not know why and will continue to work on understanding just how Periodic Comet 73P/SW3 fragmented in 1995. It makes a difference. What we learn from this comet will help us better understand the next comet we observe breaking apart.

Comet 73P/Schwassman-Wachmann 3 broke up in 1995 and continued to fragment. Hubble took the images of the fragmentation here in 2006. Some of the material you see burned up in our atmosphere this past week. Image via NASA/ ESA/ H. Weaver (APL/JHU), M. Mutchler and Z. Levay (STScI).

A fractured comet

Arnold Schwassmann and Arno Arthur Wachmann of Hamburg Observatory discovered two comets before this one (SW1 in 1927 and SW2 in 1929), not while looking for comets, but instead while conducting a photographic search for asteroids, or minor planets.

They found SW3 on May 2, 1930.

But, after its initial discovery in 1930 – despite its relatively short orbit around the sun – no one saw the comet again until 1979. Why not? Astronomers missed SW3 partly because of its intrinsic faintness. And the astronomers were also looking in the wrong place in the sky. Their inaccurate orbital calculations were due to occasional close sweeps of this comet past the giant planet Jupiter. The close passes near mighty Jupiter had changed the comet’s orbit.

And then … people began to see the comet again. With the exception of 1985, astronomers have caught it on every return near the sun since 1979.

In 1995, comet SW3 suddenly brightened by a factor of nearly 7 magnitudes. In other words, the comet suddenly got about 600 times brighter. For a while, it could be seen with the unaided eye.

A month after this outburst, observers using telescopes noticed that the nucleus, or core, of SW3 had split into pieces. They ultimately determined that the comet split into four parts, with two parts disintegrating and two parts remaining, still following the original comet’s orbit around the sun.

Comet 73P/Schwassmann-Wachmann 3 breaking up. Image via NASA.

2006 return: 68 comet pieces

By 2006, two things had become clear. First, the comet had by then fragmented into at least 68 pieces.

Second, it was still falling apart.

And that’s where the story of the possible Tau Herculid meteor shower in 2022 gets even more interesting, for earthly observers.

What can we expect at the comet’s 2022 return? We don’t know yet what we’ll see when the comet comes back this year.

Comet 73P/SW3 returned in 2011. But it wasn’t well-placed for observers that year, as it stayed mostly behind the sun. So we didn’t learn from that passage.

In 2017, astronomers observed the main component (C), along with one new fragment (BT).

The nuclei or multiple cores of this comet are small. For instance, the largest part, component C, is only about 0.6 miles, or 1.0 km, in diameter. That’s in contrast to a typical comet nucleus, which is about 6 miles (10 km) wide.

Who saw the meteor shower?

This map above shows the altitude of the Tau Herculid radiant at the predicted peak time for the meteor shower at 5 UTC on May 31, 2022. Image via Jérémie Vaubaillon.

Bottom line:  Best images and video from this week’s much-anticipated (and not disappointing) Tau Herculid meteor shower.
Read about upcoming meteor showers in EarthSky’s meteor shower guide