Hybrid solar eclipse: Everything you need to know about the rare and strange phenomenon


Hybrid solar eclipse: Everything you need to know about the rare and strange phenomenon

By Jamie Carter published November 20, 2022
A hybrid solar eclipse is a very rare and strange astronomical event — and there’s one coming soon on April 20, 2023.

Talk to most eclipse-chasers and they’ll tell you that there are three types of solar eclipse. The first is a partial eclipse of the most common and the least impressive because the moon merely blocks out part of the sun sending a shadow — the penumbra — across a swathe of Earth.The second is an annular solar eclipse, where the moon blocks out the center of the sun, but leaves a circle of light from the sun visible from within a shadow called the antumbra. It’s often called a “ring of fire”. The third is a total solar eclipse where the entirety of the sun’s disc is blocked by the moon, revealing the spectacular sight of the solar corona, which can be viewed with the naked eye from within the moon’s dark shadow, the umbra.

However, there is an intriguing fourth type of solar eclipse — a hybrid solar eclipse — that occurs only a few times per century. It’s a combination of the other three types yet it’s also impossible to experience in all its glory. As luck would have it, the next solar eclipse to occur on Earth will be a hybrid solar eclipse. Here’s everything you need to know about the coming hybrid solar eclipse — the rarest, most intriguing, and arguably the most globally spectacular and interesting type of solar eclipse there is.

A hybrid solar eclipse combines an annular and a total solar eclipse where the former becomes the latter and then usually reverts back. Therefore, observers at different points in the eclipse path can experience different phenomena. For example, if you watch a hybrid solar eclipse at sunrise or at sunset you may see a brief “ring of fire”. If you watch it at midday — so at the mid-point of the eclipse’s path across the surface of Earth — you’ll experience totality. It’s therefore impossible to experience both an annular and a total solar eclipse during a hybrid event — you have to make a choice.

Remember, NEVER look at the sun without adequate protection. Our how to observe the sun safely guide tells you everything you need to know about safe solar observations. The guide also informs you on what solar targets you can look out for and the equipment needed to do so.

Hybrid solar eclipses occur when the moon’s distance is near its limit for the umbral shadow to reach Earth and because Earth is curved(opens in new tab). The moon is just at the right distance from Earth for the apex of its cone-shaped shadow to be slightly above the Earth’s surface at the beginning and end of the eclipse path, causing the moon’s antumbral shadow to move across Earth causing an annular solar eclipse. However, in the middle of the eclipse path, the apex of the moon’s umbral shadow strikes Earth’s surface because that part of the planet is slightly closer to the moon.

Diagram showing the three different types of solar eclipses and how they occur.

Each of the three types of solar eclipse is caused by the moon blocking light from different parts of the sun. (Image credit: Wikimedia Cmglee)
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This diagram of a hybrid solar eclipse shows how the moon’s distance from the Earth determines the shadow projected onto the Earth’s surface, from the faint penumbra of a partial solar eclipse to the deep, dark umbra of totality and the antumbra — a kind of half-shadow — of annularity.

The next hybrid solar eclipse will occur on April 20, 2023 in the southern hemisphere. It will transition from annular to a total and back again at two specific points, but both are at remote locations at sea.

So for all intents and purposes, this will be exclusively experienced as a total solar eclipse from Exmouth Peninsula in Western Australia (up to 1 minute), Timor Leste (1 minute 14 seconds) and West Papua (1 minute 9 seconds). Just before and just after totality, a big display of Baily’s beads will be visible.

If you want to see the path of the eclipse, along with the eclipse timings for each location, check out this interactive eclipse map by Xavier Jubier(opens in new tab). It’s one of two solar eclipses in 2023.

There are between two and five solar eclipses each year, though during the 21st century just 3.1%(opens in new tab) (7 out of 224) of solar eclipses are hybrid solar eclipses. Between 2000 BCE to 3000 CE just 4.8%(opens in new tab) of solar eclipses are hybrid events.

The last hybrid solar eclipse to occur was on November 3, 2013. It was visible as a total solar eclipse in central Africa, including northern Kenya and Uganda, Congo and the Democratic Republic of Congo. Cruise ships in the mid-Atlantic Ocean also experienced totality, for up to one minute.

Hybrid solar eclipses are often called annular-total eclipses, “beaded” solar eclipses or “broken” annular eclipses, the latter two because they feature particularly long displays of Baily’s beads.

Because the moon appears to pass directly in front of the sun, hybrid solar eclipses are classified as “central” solar eclipses — as are total and annular solar eclipses — to differentiate them from partial solar eclipses.

Explore the different types of solar eclipses in more detail with this informative NASA article(opens in new tab). Texas State University(opens in new tab) has a useful list of several videos explaining the different types of eclipses.

Editor’s Note: If you snap an amazing solar eclipse photo and would like to share it with Space.com’s readers, send your photo(s), comments, and your name and location to spacephotos@space.com

Jamie Carter is the editor of WhenIsTheNextEclipse.com(opens in new tab)

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Bikos, K. (2022, November 13). What Is a Hybrid Solar Eclipse? Retrieved November 13, 2022, from https://www.timeanddate.com/eclipse/hybrid-solar-eclipse.html(opens in new tab)

Espenak, F. (2007, February 13). Five Millenium catalog of hybrid solar eclipses. Retrieved November 13, 2022, from https://eclipse.gsfc.nasa.gov/SEcat5/SEhybrid5.html(opens in new tab)

Jubier, X. (2022, November 13). Five Millennium (-1999 to +3000) Canon of Solar Eclipses Database. Retrieved November 13, 2022, from http://xjubier.free.fr/en/site_pages/solar_eclipses/5MCSE/xSE_Five_Millennium_Canon.html(opens in new tab)

Nemiroff, R. and Bonnell, J. (November 3, 2013). Astronomy Picture of the Day. Retrieved November 13, 2022, from https://apod.nasa.gov/apod/ap131103.html(opens in new tab)

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