What makes oddly shaped suns and moons on the horizon?

View at EarthSky Community Photos. | Saeed Ahmed Abbasi captured this image of the sun on March 4, 2025, in Pakistan and wrote: “I traveled a few kilometers away from the city to capture the sunset and caught this beauty.” Thank you, Saeed! More below about why you’ll sometimes see oddly shaped suns and moons near the horizon.

2025 EarthSky lunar calendar is available. A unique and beautiful poster-sized calendar with phases of the moon for every night of the year. Get yours today!

Oddly shaped suns and moons are great photo opportunities

Sunrises, sunsets, moonrises and moonsets are excellent opportunities to capture a particularly beautiful photograph. When you see them near the horizon, the sun and the moon can look distorted in the most fascinating ways. Their edges may appear jagged. Their bottom areas may flatten out or shrink into a pedestal. Nearby clouds and twilight color help make the artistic view even better.

But why does it happen? What causes the distortion in the appearance of a low sun or moon? The answer is atmospheric refraction, the effect of light traveling through different densities and temperatures of air. Refraction is the same effect that causes a spoon in a glass of water to appear broken in two.

The fact is, when you gaze toward any horizon, you’re looking through more air than when you gaze overhead. It’s this greater quantity of air that causes oddly shaped suns and moons. At zenith (straight up) the atmosphere will be at its thinnest. That’s why professional astronomers prefer to observe their objects of interest as high up on the sky as possible (and as their telescopes allow). And that’s because it diminishes the effects of any atmospheric distortion lower in the sky.

More atmosphere = more distortion

So we know there’s more air in the direction of a horizon. Now consider all the different ways refraction affects a sunrise, sunset, moonrise or moonset.

But it’s not only the amount of atmosphere that plays a role. There’s also the pressure, the temperature and the humidity. They all affect the air density and thereby how much light rays will be bent, or refracted, along their path.

Thus, temperatures varying with different layers of air can spread the light so you see a layered image of the object you’re looking at. In other words, the light refracts more in some layers than in others.

Chart showing how the sun (or moon) becomes distorted when viewed on the distant horizon. Light from objects on the horizon are refracted by the dense atmosphere, so they appear higher in the sky than they are. And the lower portion of the object is lifted higher than the top portion, making the object appear distorted and flattened. Image via Sciencia58/ Wikipedia (CC BY-SA 4.0).

More distortion = oddly shaped suns and moons

The bending of light rays in this manner is known as atmospheric refraction. Without any kind of disturbance, light would travel in a straight line, and give your eye a true image of what you see.

For objects with a small angular size – like stars – atmospheric refraction causes them to twinkle more the closer they are to the horizon.

But what about an object with a fair amount of surface area like the moon and the sun? For them, there is a change in the refractive effect along the height of it. Thus, the upper part travels through less atmosphere than the lower part, which makes the lower part more distorted.

View at EarthSky Community Photos. | Meiying Lee of Taoyuan, Taiwan, shared this composite image and wrote: “At sunset on January 30, 2023, I recorded a mock mirage sunset and green flashes on Mount Hehuan at an altitude of 3,000 meters (9,800 feet). In the mock mirage sunset formed by multiple temperature inversion layers on the high mountain, the sun has various wonderful changes. When the top of the sun falls into the inversion layer, it produces a very obvious green flash.” Thank you, Meiying!

What is a green flash?

When atmospheric refraction is at its most extreme, you might see a mirage. It’s the exact same situation, the light is bent and distorts the image. But here it can be refracted so much that there’s a mirroring effect and you will see drawn out or multiple images. Or it may show displaced images so the moon appears higher on the sky than it actually is.

A well-known mirage for the sun is the sought-after green flash. You can read more about atmospheric phenomena here.

View at Earth Sky Community Photos. | Julia Vaughan captured this image on March 15, 2025, and wrote: “Saturday sunset in Ocean Beach, San Diego, California. The green flash is real, this one has a little blue with it.” Thank you, Julia!

View at EarthSky Community Photos. | Cecille Kennedy on the Oregon Coast captured this image on September 21, 2023. Cecille wrote: “The green flash appeared on top of the fiery red sun as it was setting on the ocean horizon. Over the sun, the birds flying south are brown pelicans migrating to South California and Mexico.” Thank you, Cecille!

Why sunsets are red

Additionally, light of different wavelengths reacts differently. For example, blue light (which has more energy, a shorter wavelength and higher frequency) is more affected by refraction than red light. That means red colors have a larger chance of coming through to you than blue. That’s why sunsets, sunrises and the moon appear redder near the horizon.

The result of refraction is nature’s own form of art, perhaps reminiscent of impressionism. Maybe that is why we find it so appealing. The video below, captured by Mike Cohea, beautifully shows the effect of the thicker atmosphere as the young moon sets over Newport.

So, go out, bring your camera and keep watching the horizon (but never stare directly, or through a camera, at the sun). Then submit your best results to EarthSky Community Photos. We love seeing your pics!

Photos of oddly shaped suns

View at EarthSky Community Photos. | Jim Grant captured this image in San Diego, California, on January 11, 2025, and wrote: “Smoke particulates had been slowly drifting to San Diego from the fires in Los Angeles. The night before the sun was almost obscured, but winds this day blew a lot of heavy smoke away from the coastline. As the sun started setting, I positioned myself to align the sun with the end of the Ocean Beach pier. A combination of layered smoke, clouds and inversion helped create one of the most unique sunsets I have captured in 30 years. And with a green flash.” Thank you, Jim!

View at EarthSky Community Photos. | Christopher Wagner in Los Osos, California, took this photo of the sun on July 13, 2023. Thank you, Christopher! This is a great example of a mock mirage.

Photos of oddly shaped moons

View at EarthSky Community Photos. | Steven Sweet caught this image on March 27, 2025, in Canada and wrote: “Great example of atmospheric refraction causing an illusion below the rising moon.” Thank you, Steven!

View at EarthSky Community Photos. | Cecille Kennedy captured this image on October 23, 2023, in Oregon and wrote: “With a radiant pink blush, the moon over the Pacific Ocean. The first image taken at 7:36 AM. The second at 7:38 AM. The full Hunter Moon rises tonight.” Thank you, Cecille!

Bottom line: The amount of atmosphere between your eye and what you observe determines how much distortion you will see. This phenomenon – atmospheric refraction – is why the sun or moon may appear flattened or jagged near the horizon.

What’s a green flash and how can I see one?

Full moon names of the month and by the season

The post What makes oddly shaped suns and moons on the horizon? first appeared on EarthSky.

from EarthSky https://ift.tt/cK3dfqN

View at EarthSky Community Photos. | Saeed Ahmed Abbasi captured this image of the sun on March 4, 2025, in Pakistan and wrote: “I traveled a few kilometers away from the city to capture the sunset and caught this beauty.” Thank you, Saeed! More below about why you’ll sometimes see oddly shaped suns and moons near the horizon.

2025 EarthSky lunar calendar is available. A unique and beautiful poster-sized calendar with phases of the moon for every night of the year. Get yours today!

Oddly shaped suns and moons are great photo opportunities

Sunrises, sunsets, moonrises and moonsets are excellent opportunities to capture a particularly beautiful photograph. When you see them near the horizon, the sun and the moon can look distorted in the most fascinating ways. Their edges may appear jagged. Their bottom areas may flatten out or shrink into a pedestal. Nearby clouds and twilight color help make the artistic view even better.

But why does it happen? What causes the distortion in the appearance of a low sun or moon? The answer is atmospheric refraction, the effect of light traveling through different densities and temperatures of air. Refraction is the same effect that causes a spoon in a glass of water to appear broken in two.

The fact is, when you gaze toward any horizon, you’re looking through more air than when you gaze overhead. It’s this greater quantity of air that causes oddly shaped suns and moons. At zenith (straight up) the atmosphere will be at its thinnest. That’s why professional astronomers prefer to observe their objects of interest as high up on the sky as possible (and as their telescopes allow). And that’s because it diminishes the effects of any atmospheric distortion lower in the sky.

More atmosphere = more distortion

So we know there’s more air in the direction of a horizon. Now consider all the different ways refraction affects a sunrise, sunset, moonrise or moonset.

But it’s not only the amount of atmosphere that plays a role. There’s also the pressure, the temperature and the humidity. They all affect the air density and thereby how much light rays will be bent, or refracted, along their path.

Thus, temperatures varying with different layers of air can spread the light so you see a layered image of the object you’re looking at. In other words, the light refracts more in some layers than in others.

Chart showing how the sun (or moon) becomes distorted when viewed on the distant horizon. Light from objects on the horizon are refracted by the dense atmosphere, so they appear higher in the sky than they are. And the lower portion of the object is lifted higher than the top portion, making the object appear distorted and flattened. Image via Sciencia58/ Wikipedia (CC BY-SA 4.0).

More distortion = oddly shaped suns and moons

The bending of light rays in this manner is known as atmospheric refraction. Without any kind of disturbance, light would travel in a straight line, and give your eye a true image of what you see.

For objects with a small angular size – like stars – atmospheric refraction causes them to twinkle more the closer they are to the horizon.

But what about an object with a fair amount of surface area like the moon and the sun? For them, there is a change in the refractive effect along the height of it. Thus, the upper part travels through less atmosphere than the lower part, which makes the lower part more distorted.

View at EarthSky Community Photos. | Meiying Lee of Taoyuan, Taiwan, shared this composite image and wrote: “At sunset on January 30, 2023, I recorded a mock mirage sunset and green flashes on Mount Hehuan at an altitude of 3,000 meters (9,800 feet). In the mock mirage sunset formed by multiple temperature inversion layers on the high mountain, the sun has various wonderful changes. When the top of the sun falls into the inversion layer, it produces a very obvious green flash.” Thank you, Meiying!

What is a green flash?

When atmospheric refraction is at its most extreme, you might see a mirage. It’s the exact same situation, the light is bent and distorts the image. But here it can be refracted so much that there’s a mirroring effect and you will see drawn out or multiple images. Or it may show displaced images so the moon appears higher on the sky than it actually is.

A well-known mirage for the sun is the sought-after green flash. You can read more about atmospheric phenomena here.

View at Earth Sky Community Photos. | Julia Vaughan captured this image on March 15, 2025, and wrote: “Saturday sunset in Ocean Beach, San Diego, California. The green flash is real, this one has a little blue with it.” Thank you, Julia!

View at EarthSky Community Photos. | Cecille Kennedy on the Oregon Coast captured this image on September 21, 2023. Cecille wrote: “The green flash appeared on top of the fiery red sun as it was setting on the ocean horizon. Over the sun, the birds flying south are brown pelicans migrating to South California and Mexico.” Thank you, Cecille!

Why sunsets are red

Additionally, light of different wavelengths reacts differently. For example, blue light (which has more energy, a shorter wavelength and higher frequency) is more affected by refraction than red light. That means red colors have a larger chance of coming through to you than blue. That’s why sunsets, sunrises and the moon appear redder near the horizon.

The result of refraction is nature’s own form of art, perhaps reminiscent of impressionism. Maybe that is why we find it so appealing. The video below, captured by Mike Cohea, beautifully shows the effect of the thicker atmosphere as the young moon sets over Newport.

So, go out, bring your camera and keep watching the horizon (but never stare directly, or through a camera, at the sun). Then submit your best results to EarthSky Community Photos. We love seeing your pics!

Photos of oddly shaped suns

View at EarthSky Community Photos. | Jim Grant captured this image in San Diego, California, on January 11, 2025, and wrote: “Smoke particulates had been slowly drifting to San Diego from the fires in Los Angeles. The night before the sun was almost obscured, but winds this day blew a lot of heavy smoke away from the coastline. As the sun started setting, I positioned myself to align the sun with the end of the Ocean Beach pier. A combination of layered smoke, clouds and inversion helped create one of the most unique sunsets I have captured in 30 years. And with a green flash.” Thank you, Jim!

View at EarthSky Community Photos. | Christopher Wagner in Los Osos, California, took this photo of the sun on July 13, 2023. Thank you, Christopher! This is a great example of a mock mirage.

Photos of oddly shaped moons

View at EarthSky Community Photos. | Steven Sweet caught this image on March 27, 2025, in Canada and wrote: “Great example of atmospheric refraction causing an illusion below the rising moon.” Thank you, Steven!

View at EarthSky Community Photos. | Cecille Kennedy captured this image on October 23, 2023, in Oregon and wrote: “With a radiant pink blush, the moon over the Pacific Ocean. The first image taken at 7:36 AM. The second at 7:38 AM. The full Hunter Moon rises tonight.” Thank you, Cecille!

Bottom line: The amount of atmosphere between your eye and what you observe determines how much distortion you will see. This phenomenon – atmospheric refraction – is why the sun or moon may appear flattened or jagged near the horizon.

What’s a green flash and how can I see one?

Full moon names of the month and by the season

The post What makes oddly shaped suns and moons on the horizon? first appeared on EarthSky.

from EarthSky https://ift.tt/cK3dfqN