aurora colours – The Amazing Sky

December 15, 2024December 16, 2024

The Great Auroras of 2024

The Sun peaked at “solar maximum” and gave us wonderful sky shows in 2024.

Officially, the Sun reached the peak of its roughly 11-year cycle of activity — “solar max” — in late 2024. That’s according to NASA and NOAA.

During 2024 several major solar storms erupted as a result of the Sun’s increased activity. They blew massive clouds of energetic particles — electrons and protons — away from the Sun. Some of those storm clouds swept past Earth, sparking bright auroras widely seen in both the Northern and Southern Hemispheres.

The rise and fall of solar activity. The peak at right is as of November 2024 in mid-Cycle 25. Courtesy SolarCycleScience.com.

I was fortunate enough, as many were, to witness several of 2024’s great auroras, from home in Alberta, and from as far south as Arizona.

Trips north to Churchill, Manitoba, and to northern Norway also presented some fine aurora nights. But that’s normal at any time in the solar cycle from those sub-Arctic and Arctic locations.

It’s when the aurora comes to you that you get a truly memorable show. And 2024 had its share of them.

NOTE: My blog has a lot of images and links to movies that may take a while to load. Images can be clicked on to bring them up full screen. The blog also contains many links to other sites to learn more!

Starting the Year — February in Churchill

This was the month I made my annual trek to Churchill, Manitoba, to instruct aurora tour groups at the Churchill Northern Studies Centre. Why not join us in 2025?

An aurora selfie at the Churchill Northern Studies Centre, on February 10, with a modest Kp4-level storm underway. This is 20-seconds with the TTArtisan 11mm fisheye lens at f/2.8 on the Canon R6 at ISO 1600.

Yes, the air is cold (usually about -25° C) but the skies are often clear and aurora filled, as Churchill sits under the normal location of the auroral oval, the main zone of auroras. In fact, it is as far south in the world as the auroral oval normally resides, at a latitude of only 58º North, well south of the Arctic. If it’s clear, there’s almost always some level of Northern Lights.

This year, 2024, was no exception. Even on nights with low readings on the usual auroral indicators we got sky-filling displays that are rare down south.

This is a southerly arc of green and red Northern Lights on February 9. This is a panorama of 5 segments, each 20 seconds with the Laowa 15mm lens at f/2 on the Canon R6 at ISO 1600.

What I find in Churchill is that even with numerically weak and visually dim shows, as above, the camera often sees very red and photogenic auroras. The eye sees the colours only when the aurora brightens, which it often does (as I record below), sparking rippling green curtains (from glowing oxygen) fringed with pink (from glowing nitrogen).

I didn’t shoot time-lapses or movies this year in Churchill. Instead, the example movie above, shot using just real-time (not time-lapse) videos, is from February 2019. It is from my AmazingSky YouTube channel.

The video presents the aurora much as the eye saw it, and as it appears when it dances.

This is a 360º panorama of the all-sky aurora of February 10, from the Churchill Northern Studies Centre. This is a panorama of 9 segments, each 15 seconds with the TTArtisan 11mm lens at f/2.8 on the Canon R6 at ISO 1600.

However, I tend now to shoot mostly panoramas, as above, from this year’s visit. They can take in the full show across the sky, in high-resolution images suitable for framing!

May 10 — The Great May Display

The aurora apps were beeping this day, warning a great display was in the offing. The composite satellite image below from NOAA shows the actual extent of the aurora around the Northern Hemisphere during the great display of May 10/11 .

Note how the auroral oval is indeed an oval and how the centre is not the geographic North Pole. It is the North Geomagnetic Pole, in the High Arctic of Canada. 🇨🇦 So the oval dips down farther south over North America than it does over Europe.

Image courtesy of the U.S. National Oceanic and Atmospheric Administration.

The May 10 solar storm rated a top “G5” on the G1 to G5 storm scale, while the “Kp”geomagnetic disturbance index reached Kp8 on the Kp0 (nothing) to Kp9 (OMG!) scale.

I gave a talk at a local community art gallery that evening, and alerted the audience to the likelihood of fine aurora later that night. Sure enough, I got home in time to see the sky already lighting up with aurora in the twilight and behind the clouds.

This was the multi-coloured curtain to the south during the great display of May 10. This is a 10-second exposure with the Laowa 15mm lens at f/2.8 on the Canon Ra at ISO 1600.

The clouds cleared off enough to reveal one of the most colourful shows I’d seen in many years. This time there was no question about seeing reds and vivid pinks with the unaided eye. This was the type of show everyone hopes for. But it takes a Kp6 show and higher to spark it.

This was the view as the aurora suddenly brightened and converged at the zenith for a superb corona effect. This lasted no more than a minute before it dimmed and subsided again. This is a 9-second exposure with the Laowa 7.5mm circular fisheye lens at f/2 on the Canon R5 at ISO 800.

I blogged previously about the Great May Aurora Display here.

And a music video of the May 10 display incorporating time-lapse and real-time video footage is on my YouTube channel, with the clickable link below. Do enlarge to full screen.

One of the most remarkable aspects of this show was the blue auroras later in the night (shown below), created by sunlight illuminating the upper curtains and reacting with atmospheric nitrogen. The usual auroral greens and reds are from oxygen. Pinks are also from nitrogen. Blues are less common, but were in abundance this night.

This is a 360° panorama of the May 10/11 aurora exhibiting vertical blue and magenta rays across the western (left), northern (bottom), and eastern (right) sky, and an odd bright patch to the south at top. This was toward the end of the main activity this night, at about 2:30 am. This is made of 20 segments, each 13-second exposures, with the Laowa 15mm lens at f/2 on the Canon Ra at ISO 800.

Auroras around summer solstice, June 21, can be more colourful and often blue, as the Sun lights the upper atmosphere all night. I saw blue auroras again later in the summer.

July — NLCs and Classic Auroral Arcs

June and July are normally when we in western Canada get good displays of another northern mid-latitude phenomenon, noctilucent clouds (NLCs).

This shows sunlit noctilucent clouds in the northwest in the summer twilight, and as the waxing crescent Moon sets at left. This was July 9 at 11:45 pm MDT, in a panorama of 5 segments, each a 30-second exposure with the Canon RF24-105mm lens at f/4 and 58mm on the Canon R5 at ISO 400.

These are ice clouds at 80 km altitude (almost in space) that are lit by sunlight all night long. I saw only a couple of displays of NLCs this year, and it wasn’t for lack of trying and clear nights, even amid forest fire smoke. The panorama above is from home on July 9, over a yellow canola field. NLC season always coincides with peak canola colour time!

Might NLCs be suppressed by high solar activity? There’s some data that suggests they are. However, we weren’t getting many auroras either in early summer.

A 180° panorama of the surprise aurora of July 25, as there was little indication in the days before that an aurora was possible this night. This is a panorama of 6 segments, with the Viltrox 16mm lens at f/2 on the Nikon Z6III at ISO 800, each 8-second exposures.

But at the end of July the Northern Lights returned for some classic shows of arcs across my northern sky, first on July 25 (above), with a prominent sunlit blue/purple ray at left by the Big Dipper. The Kp Index reached Kp5 this night, which is enough to produce a good display from my location in southern Alberta. The Moon is rising at right.

A 180° panorama of the Kp5-level aurora on July 29, with a green arc, and magenta and red rays. This is a panorama of 8 segments, each 30-second exposures with the Viltrox 16mm at f/2 on the Nikon Z6III at ISO 800.

Then again, four nights later on July 29, an auroral arc appeared across the north, this one with reds mixing with greens to create a yellow band in the east, as well as blue and magenta tops to the green arc that follows the curve of the auroral oval.

August 1 — STEVE Appears

While June and July were quiet months, August made up for them.

Of all the auroras this year, only this one, on August 1, produced a showing of STEVE, at least as best I saw in 2024. He can be elusive and easily missed!

This is a capture of a faint appearance of a STEVE-like arc during the Kp5 aurora of July31/Aug 1. This was at 12:10 a.m. MDT, so on Aug 1. The camera recorded the pinkish rays at right which are likely STEVE arcs below a more diffuse and fainter red band which may be a SAR, a Stable Auroral Red arc.

STEVE is the odd arc, often white or mauve, that appears southward of the main aurora (from here in the Northern Hemisphere), typically after a show has peaked, then subsided and retreated back north, as it did above.

STEVE stands for Strong Thermal Emission Velocity Enhancement, as it is caused by horizontally flowing hot gas, and so is not, by definition, a true aurora created by energetic particles raining vertically down magnetic field lines.

For a classic showing of STEVE see my video, above, from August 2022. High-resolution 4K video I shot this night formed the basis for a scientific research paper, as it revealed structures in STEVE no one had seen before.

This is a capture of a brief appearance of a STEVE arc in the west during the Kp5 aurora of July31/Aug 1. This was at 1:10 a.m. MDT, so on Aug 1. The mauve STEVE arc was visible for about 15 minutes before it gradually faded. The green picket fence fingers, which were visible to the eye but colourless, appeared only a minute or so before this image and were gone no more than 2 mnutes later.

STEVEs are often accompanied by green “picket fence fingers” hanging down from the mauve arc. These fingers are more akin to normal auroras, but are created by particles from the STEVE band raining down local magnetic field lines. They do not come from far out in space as they do in a normal aurora!

August 4 — A Coronal Outburst

On the night of August 3/4 I was able to join a photo tour run by local photographer Neil Zeller, to shoot Milky Way nightscapes. Escaping clouds, we ended up at a scenic spot south of Medicine Hat, Alberta, called Red Rock Coulee.

A 180° panorama of a Kp5-level aurora on a partly cloudy night, August 3/4. This was looking to the northeast at 3:00 am from a side road off the Trans-Canada Highway in southern Alberta just east of Brooks.

On the way home, the aurora began to let loose behind the clouds. We stopped once off the highway as the aurora brightened in an arc across the northeast, above.

A bright auroral curtain sweeps from the zenith down the western sky, as the sky brightens with the blue of a dawn twilight. This was the morning of August 4, with a Kp5 to 6 level aurora underway. The location was just off Highway 1 between Brooks and Bassano, Alberta. This is a single 13-second exposure with the Viltrox 16mm lens at f/2 on the Nikon Z6III at ISO 400.

We stopped again later, now at 4 am, and marvelled as the curtains converged at the zenith in the finest manifestation an aurora can produce, a swirling zenith “corona.”

A music video from August 4, using just a single real-time video, not a time-lapse, is above. It shows almost the full but brief appearance of the corona, just as the eye saw it looking straight up!

August 11 — Another Great Display

August was a good month! Right after the annual Saskatchewan Summer Star Party in the Cypress Hills I headed farther east to Grasslands National Park, a favourite dark-sky site I had not visited since 2019.

My plan was to shoot the annual Perseid meteor shower that was to peak on Sunday, August 11, from the same spot I shot it in 2016.

A 270° panorama of the aurora in the evening twilight on August 11, from the 70 Mile Butte trailhead in Grasslands National Park, West Block near Val Marie, Saskatchewan. This is a panorama of 11 segments, each 15 seconds with the Laowa 15mm lens at f/2.8 on the Canon R5 at ISO 800.

The aurora had other plans. Again, as it did on May 10, the sky was lighting up with colours as it darkened in the evening twilight, above.

This is a 360° all-sky panorama of the Kp6 to 7-level aurora on August 11, from Grasslands National Park. This is a panorama of 12 segments, each 4 seconds with the Laowa 15mm lens at f/2 on the Canon R5 at ISO 4000.

The aurora expanded to fill the sky, and with odd fragmented bits, shown above. My trio of cameras set up for the meteor shower got repurposed into taking aurora time-lapses, stills, and panoramas. And selfies! — the title slide for this blog was from this memorable night at Grasslands.

The aurora was bright enough during this substorm outburst at 12:15 am that the red and green colours could be seen with the eye, though they were subtle. This is a 2-second exposure with the Laowa 15mm lens at f/2 on the Canon R5 at ISO 3200.

A notable moment was at midnight when, even to the eye, the sky to the east suddenly turned red, and a wave of crimson aurora quickly swept in. The reds from oxygen mix with the more usual auroral greens, also from oxygen, to create areas of yellow in the sky.

This was also peak night for the 2024 Perseid meteor shower. One bright Perseid meteor shoots down the Milky Way in Cygnus at top, amid the converging rays of the aurora at the magnetic zenith. This is with the Laowa 10mm lens at f/2.8 on the Nikon Z6III at ISO 6400 for 2 seconds.

A few still frames in the time-lapses did manage to catch a Perseid meteor or two, as above, embedded in the vivid curtains of light. But the meteors were upstaged by the Northern Lights this night.

A music video of this show is above, also on my YouTube channel (it’s been a busy year!). Using only time-lapses, it captures the sudden arrival of the red sub-storm, sped up to be sure, but it seemed that quick!

August 30 — From Onset to Recovery

This night I was hoping to shoot deep-sky objects with telescopes I was testing at home. Again, the aurora had other ideas.

This view is looking north, but the fisheye lens is taking in much of the sky. The August 30 show was somewhat unexpected, though there were last-hour warnings a sky-covering display might be possible. This is a single 4-second exposure with the TTArtisan 7.5mm fisheye lens at f/2 on the Nikon Z6III at ISO 3200.

As the movie shows, a band of Lights across the north early in the evening promised to develop. So I set up a time-lapse camera and fisheye lens to capture, for once, a complete development of an aurora, from a diffuse band, to the onset of an active sub-storm outburst which occurred, as they often do, at midnight when we are looking down Earth’s magnetic tail at the source of the aurora particles.

As the video shows, the storm then subsides and the aurora changes character. During the post-sub-storm “recovery phase,” usually when we are under the dawn sector of the auroral oval, an aurora can switch to a pulsating effect with patches of aurora flashing off and on and flaming up to the zenith. This form of aurora is caused by electrons trapped in the Van Allen radiation belts that are bouncing back and forth from pole to pole.

To capture this aspect of the show I switched to real-time video with that same lens, reviewed here on a previous blog.

The music video of this show, above, uses a mix of time-lapses and real-time videos shot with the 360º 7.5mm fisheye lens. It’s a great aurora lens for capturing it all!

September 16 — A Colourful All-Sky Show

Auroras are often most frequent, active, and bright around the spring and autumn equinoxes, when the magnetic field lines of Earth and interplanetary space better connect. It’s called the Russell-McPherron Effect.

This is a 360° panorama from left (southeast) to right (northeast) and extending from the horizon to the zenith, taking in the entire sky during an outburst of a particularly colourful aurora on September 16. This is a panorama of 12 segments, each 4 seconds with the Laowa 15mm lens at f/2 on the Canon R5 at ISO 400.

September 16 (6 days before the autumnal equinox) saw another all-sky show that, for us in western Canada, rivalled May 10. As with the spring show, this aurora was notable for its great range of colours, with nitrogen pinks and magentas mixed in with shades of oxygen yellow-greens and reds.

A darker blue-green band to the south (at left above) during the peak could be aurora from incoming protons exciting hydrogen, not from the usual electrons that excite all other auroras and light up oxygen and nitrogen atoms and molecules.

Yes, there are proton auroras. Another research paper using my images from an October 2021 aurora explored the relationship between proton auroras and SAR arcs (explained below).

This is an all-sky 360° panorama from the horizon at the edges, to the zenith at centre, taking in the entire sky during an outburst of a particularly colourful aurora on September 16. This is a panorama of 12 segments, each 4 seconds with the Laowa 15mm lens at f/2 on the Canon R5 at only ISO 400.

The September 16 show started with a diffuse band which quickly exploded as a sub-storm onslaught of energetic particles arrived to light up the aurora with greater brilliance, colours, and rapid motion. The onset of a substorm can happen in literally just a minute.

Even the nearly Full Moon failed to diminish this show, seen from home under perfect skies. Luckily, the smoky season had abated.

A music video of this night’s show is also above on YouTube. Do click through to watch this and the other videos in full screen mode.

October 10 — Red Aurora from Arizona

Six months to the day after the great May 10 show, the sky erupted again with auroras seen all over the world, even from more southerly latitudes that don’t normally see Northern Lights.

A rare red aurora seen from latitude +32º N from southeast Arizona during the major Kp8-level storm of October 10. This is looking north from the Quailway Cottage near Portal, Arizona and Rodeo, New Mexico. This is a single 15-second exposure with the Canon RF15-35mm lens at 15mm and f/2.8 on the Canon R5 at ISO 1600.

I know because I was at one of those latitudes, in southern Arizona at 32° N. The aurora created the kind of show seen from areas that don’t normally get auroras — a red sky on the horizon. It is these ominous red skies that provoked Medieval fears of divine wrath and myths of armies clashing in the distant North.

Red auroras can also occur in the Southern Hemisphere (as can every other form of aurora) when the aurora australis brightens and extends farther north than normal, lighting up the southern sky red at locations that rarely see the Southern Lights.

In both cases we are seeing just the red tops of distant curtains that mostly lie hidden over the horizon, the red coming from oxygen reactions that can happen only at the rarefied altitudes of 300 to 500 km. Oxygen greens come from 100 to 300 km up.

From Arizona, I saw what many in the U.S. saw this night — a prominent glow, obviously red even to the eye, across the northern horizon. I was missing a far better show at home!

This is a 360° panorama covering the entire sky and extending up to the zenith at centre, capturing a rare SAR (Stable Auroral Red) arc across the Arizona sky in the pre-dawn hours of October 11. This is a panorama of 12 segments, each 30 seconds at f/2.8 with the Canon RF15-35mm lens on the Canon R5 at ISO 3200.

But unique to my more southerly site was this phenomenon, also widely seen across the U.S. and southern Canada.

Accompanying the “normal” aurora to the north was a diffuse red (to the camera) arc across the sky that lasted most of the night. This was a Stable Auroral Red (SAR) arc, created by thermal energy flowing horizontally in the high atmosphere some 400 km up.

SARs have been seen evolving into STEVEs, as the mechanisms seem related. Indeed, one of my images from August 1, shown above, seems to show a SAR/STEVE hybrid.

I set up a wide-angle lens and time-lapse hoping to catch such an evolution first-hand, which would have been of great interest to researchers. Alas, the SAR did not cooperate, stubbornly remaining a SAR all night.

This was the pre-dawn scene from southeastern Arizona on the morning of October 11 that frames a suite of skyglows. This is a panorama of 3 segments, each a stack of 5 x 1-minute tracked exposures with the Canon RF15-35mm lens at 15mm and f/2.8 on the Canon R5 at ISO 1600.

By dawn, with blue sunlight at work, the SAR looked magenta in the twilight, accompanied by two other sky glows:

The pyramid-shaped Zodiacal Light created by sunlight reflecting off cometary and meteoric dust in the inner solar system,
And the winter Milky Way, created by the combined light of distant stars in our section of our Galaxy.
So in one image we have atmospheric, interplanetary, and interstellar sky glows! This was truly an amazing sky, the likes of which I might never see again.

Ending the Year — November in Norway

In early November I headed to Norway to instruct my first aurora group there since 2019. The location was on board a ship, the m/s Nordkapp, a ferry in the Hurtigruten fleet that does 12-day runs along the coast, from Bergen in the south, to Kirkenes in the far north, and back again.

Passengers on board the m/s *Nordkapp* are watching the Northern Light show on November 9, from the coast of Norway. This is 0.4 seconds at f/1.8 with the Nikkor 20mm lens on the Nikon Z6III at ISO 3200.

We got three nights in a row of active auroras on the northbound voyage. A Kp4 to 5 storm brought the Lights farther south and overhead for us early in the voyage, something we don’t normally see in Norway until we get underneath the auroral oval, which at that longitude in the world lies above the Arctic Circle, north of 66° latitude.

A colourful aurora appears in the darkening evening twilight sky at sea along the coast of Norway on November 9. This is a single 2-second exposure with the 20mm Nikkor lens at f/1.8 on the Nikon Z6III at ISO 1600.

But on November 9, with a storm underway, the show started early, rudely interrupting our group’s cocktail hour as we all rushed up on deck. As it can do, the aurora glowing in a twilight sky took on added tints.

This is a panorama of auroral arcs across the southern sky, with prominent red content contrasting with the oxygen yellow-green bands. Taken on November 10/11 (just after midnight). This is a panorama of 7 segments, each 1.3-second exposures with the Nikkor 20mm lens at f/1.8 on the Nikon Z6III at ISO 3200.

The next night, November 10, as we sailed through the mountainous Lofoten Islands, we were treated to an aurora with lots of red content, above. No two auroras are alike!

An arc of Northern Lights points the way into the narrow Trollfjord in the Lofoten Islands of Norway, as our ship, the m/s *Nordkapp* enters the fjord at night by searchlight. This is a 0.5-second exposure at f/1.8 with the Nikkor 20mm lens on the Nikon Z6III at ISO 1600.

A curtain of aurora also nicely pointed the way into the short but scenic Trollfjord, a fjord the ship captains like to navigate into for a memorable side trip as we slide through the narrow canyon with seemingly inches to spare.

A gallery of my Norway auroras is here on my website.

All going well, I will be back in Norway for two cruises in October. Join me!

A music video of real-time aurora sequences shot from on deck during my November 2024 Norway cruise is above on YouTube. Note the phones held high, the way most people now shoot the aurora, and usually with very good success!

What’s Coming for 2025?

We have more to look forward to in 2025.

First, it is likely that the Sun has not peaked, but may undergo a second peak of maximum activity in 2025 or 2026. A double peak is common at many solar maxes. Just look at the graph at the opening of the blog, and the previous peaks of Cycles 23 and 24.

Plus, the most energetic solar flares and storms often occur after the peak on the downward trend of activity. So we could well see more worldwide aurora displays like we had on May 10 and October 10 in the coming two to three years. The show is far from over!

Watch websites like SpaceWeather.com for aurora alerts and news of solar events coming our way.

— Alan, December 15, 2024 / AmazingSky.com

May 18, 2024May 18, 2024

The Great Aurora Show of May 10, 2024

It has been many years since we were treated to an aurora as widely seen as the show on May 10, 2024. Here’s my tale of the great display.

As the sky darkened around the world on May 10/11, 2024, sky watchers in both the northern and southern hemispheres were amazed to see the sky lit by the deep reds, greens and pinks of a massive display of aurora. For me, this was my first Kp8 to 9 show (to use one measure of aurora intensity) in more than 20 years, back in the film era!

Throughout the day, aurora chasers’ phones (mine included) had been beeping with alerts of the arrival of a major solar storm, with the usual indicators of auroral activity pinned to the top of the scale.

A NOAA satellite’s eye view of the ring of aurora May 10/11, showing it south of me in Alberta, and across the northern U.S. People in the southern U.S. saw it to their north.

As I show below, the graphic of the intensity of the band of aurora, the auroral oval, was lit up red and wide. This was a night we didn’t have to chase north to see the Northern Lights or aurora borealis — they were coming south to meet us (as I show above).

**The Kp Index was reading 9 on SpaceWeatherLive**

Observers in the southern hemisphere had the normally elusive aurora australis move much farther north than usual, bringing the Southern Lights even to tropical latitudes in Australia, South America and Africa.

The cause was a massive sunspot group on the Sun which had let off several intense solar flares.

Sunspot group 3664 was so big it could be seen with the naked eye, using solar eclipse glasses. Photo courtesy NASA.

The flares had in turn blown off parts of the Sun’s atmosphere, the corona, that anyone who saw the total eclipse a month earlier had admired so much. But a month later, the corona was being blown our way, in a series of Coronal Mass Ejections (CMEs), to collide with Earth.

A movie of six CMEs blasting toward Earth, captured by the SOHO satellite. Courtesy NASA/ESA.

As it happened I was scheduled to give a community talk in the nearby town early in the evening of May 10, on the topic of The Amazing Sky! Watching the indicators, I could more or less promise the audience that we would indeed see an amazing sky later that evening as it got dark.

Post talk, I hurried home to get the cameras ready, choosing to forgo more hurried driving out to a scenic site in southern Alberta, for the convenience of shooting from my rural backyard. As the sky darkened, the clouds were lit purple, and curtains of aurora appeared in the clear patches.

Clouds and aurora in twilight with the 11mm TTArtisan full-frame fish-eye lens.

A bright arc of aurora shining through the purple clouds, with the 7.5mm TTArtisan circular fish-eye lens.

Something big was going on! This was promising to be the best show of Northern Lights I had seen from home in a year. (Spring 2023 had three great shows at monthly intervals, followed by an aurora drought for many months. See The Great April Aurora.)

A selfie at the start of the great aurora show of May 10, 2024.

I shot with four cameras (a Canon EOS R, Ra, R5 and R6) — two for time-lapses, one for real-time movies, and one for still images. I used the latter to take many multi-image panoramas, as they are often the best way to capture the wide extent of an aurora across the sky.

The arc of aurora in purple and white across the northern sky from home in Alberta at the start of the great display (about 11:30 p.m. MDT).

Early in the evening the arc of aurora wasn’t the usual green from oxygen, but shades of purple, pink, and even white, likely from sunlit nitrogen. The panorama above is looking north toward a strangely coloured arc of nitrogen (?) aurora.

Then after midnight a more normal curtain appeared suddenly, but toward the south, brightening and rising to engulf much of the southern sky and the sky overhead.

Looking south with the 15mm wide-angle lens.

It is at local midnight to 1 a.m. when substorms usually hit, as we are then looking straight down Earth’s magnetic tail, toward the rain of incoming aurora particles bombarding the Earth. During a substorm, the rain turns into a deluge — the intensity of the incoming electrons increases, sparking a sudden brightening of the aurora, making it dance all the more rapidly.

This is a 300° panorama of my home sky now filled with colourful curtains.

As the aurora explodes in brightness it often swirls up to the zenith (or more correctly, the magnetic zenith) to form one of the sky’s greatest sights, a coronal outburst. Rays and beams converge overhead to form a tunnel effect. It is jaw-dropping.

I’ve seen this many times from northern sites such as Churchill and Yellowknife, where the aurora often dances straight up. And from my latitude of 51° N in western Canada, the aurora does often come down to us.

But this night, people at latitudes where, at best, the aurora might be seen just as a glow on the horizon, saw it dance overhead in a corona show to rival the solar eclipse, and that other corona we saw on April 8!

This is a panorama of a substorm outburst creating an overhead corona with rays converging to the magnetic zenith (south of the true zenith), and amid clouds. The rays show a rich mix of oxygen greens and reds, as well as nitrogen blues blending to create purples. Some greens and reds are mixing to make yellows.

Yes, the long exposures of aurora photos (even those taken with phone cameras) show the colours better than your eye can see them (insensitive as our eyes are to colour in dim light). But this night portions of the arcs and rays were bright enough that greens and pinks were easily visible to the naked eye.

This is a single 9-second exposure of the peak of a bright outburst at 1 a.m. MDT. It was with the Laowa 7.5mm circular fish-eye lens at f/2 on the Canon R5 at ISO 800. It is one frame from a time-lapse sequence.

A brief outburst of a substorm created an overhead corona with bright rays converging to the magnetic zenith (south of the true zenith).

At its peak the show was changing rapidly enough, I couldn’t get to all the cameras to aim and frame them, especially the movie camera. The brightest outburst at 1 a.m. lasted just a minute — the time-lapse cameras caught it. The sequence below shows the view in 9-second exposures taken consecutively just 1 second apart.

This series shows a brief outburst of bright aurora at the magnetic zenith overhead. The time between these 7 consecutive 9-second exposures is only 1 second, so this bright outburst did not last long (little more than a minute). With the TTArtisan 7.5mm f/2 fish-eye lens on the Canon R5. Click or tap to enlarge to full screen.

Here’s another sequence of frames taken as part of a time-lapse sequence with the 11mm lens. It shows the change in the aurora over the 80 minutes or so that it was most active for me at my site.

The time between these 12 images is usually 8 minutes, though to include some interesting activity at a bright outburst, the interval is 5 minutes for three of the images around 1 a.m. Each is a 7- or 9-second exposure taken as part of a time-lapse sequence using the 11mm TTArtisan lens at f/2.8 on the Canon R at ISO 800 or 1600.

Shooting time-lapses with fish-eye lenses captures the show with a minimum of attention needed (except to adjust ISO or exposure times when the aurora brightens!). I could use the still camera (with the Laowa 15mm f/2 lens) to take individual shots, such as more selfies and home shots.

This is a single 6-second exposure with the Laowa 15mm lens at f/2 and Canon Ra at ISO 2000.

This is a single 8-second exposure with the Laowa 15mm lens at f/2 on the Canon Ra at ISO 800. Another camera taking a time-lapse is in the scene. I had four going this night.

As colourful as the aurora was at its best between midnight and 1:30 a.m., I think the most unique shots came after the show had subsided to appear just as faint rays across the north again, much as it had begun. To the eye it didn’t look like much, but even on the camera’s live screen I could see unusual colours.

I took more panoramas, to capture one of the most unusual auroral arcs I’ve even seen — a blue and magenta aurora across the north, similar to how the night started.

This a stitch of 11 segments, each 13-second exposures, with the Laowa 15mm lens at f/2 on the Canon Ra camera at ISO 800, and turned to portrait orientation. Processed in Camera Raw and stitched with PTGui.

The colours may be from nitrogen glowing, which tends to light up in blues and purples, especially when illuminated by sunlight at high altitudes. At 2 to 2:30 a.m. the Sun might have been illuminating the aurora at a height of 150 to 400 km, and far to the north.

I’d seen blue-topped green auroras before (and there’s a green aurora off to the west at left here). But this was the first time I’d seen an all-blue aurora, no doubt a product of the intense energy flowing in the upper atmosphere this night. And the season and my latitude.

The panorama is a spherical projection spanning 360º, and reaching to the zenith 90° high at centre. This a stitch of 20 segments, each 13-second exposures, with the Laowa 15mm lens at f/2 on the Canon Ra camera at ISO 800, and turned to portrait orientation. Processed in Camera Raw and stitched with PTGui.

The weirdest aurora was at 2:30 a.m., when in addition to the blue rays of nitrogen, an odd white and magenta patch appeared briefly to the south. What was that??

The lesson here? During a bright show do not go back to sleep when things seem to be dying down. Interesting phenomena can appear in the post-storm time, as we’ve learned with STEVE and other odd red arcs and green proton blobs that we aurora photographers have helped document.

I end with a finale music video, mostly made of the time-lapses I shot this night.

Enjoy!

Bring on more aurora shows as the Sun peaks in activity, perhaps this year. But the best shows often occur in the 2 or 3 years after solar max. So we have several more years to look forward to seeing the Lights dance in our skies.

Watch in full screen and in 4K if you can. For all the tech details click through to YouTube and check the description below the video.

Thanks and clear skies!

— Alan, May 18, 2024 amazingsky.com