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  • The solar corona shines bright over the pinnacle of a butte in the Mormon Basin of Malheur County, Oregon, during the total solar eclipse of August 21, 2017. The corona is an extremely hot plasma aura — as much as 450 times the temperature of the sun's surface — that extends millions of miles out from the solar disk that we typically see. The sun's surface is far brighter than the corona, usually outshining it. During a total solar eclipse when the moon blocks the view of the main body of the sun, the corona becomes visible.
    Solar-Eclipse_Malheur_Butte_4026.jpg
  • The sun's corona is visible to the naked eye during the total solar eclipse of August 21, 2017, as viewed from Malheur County, Oregon. The corona is an extremely hot plasma aura — as much as 450 times the temperature of the sun's surface — that extends millions of miles out from the solar disk that is typically visible. The sun's surface is far brighter than the corona, usually outshining it. During a total solar eclipse when the moon blocks the view of the main body of the sun, the corona becomes visible. The bright star Regulus is visible near the bottom left corner of the image.
    Solar-Eclipse-Corona_4771.jpg
  • A solar pillar, also known as a sun pillar, forms before sunrise between two juniper trees on the southern rim of the Grand Canyon in Grand Canyon National Park, Arizona. Solar pillars are caused by flat ice crystals in the air, which essentially act as mirrors for the sun's light.
    GrandCanyon_Junipers_Solar-Pillar_86...jpg
  • The annular solar eclipse of May 20, 2012 reaches its peak in this view from Lassen Volcanic National Park in California. The Moon's distance from Earth varies, and annular solar eclipses occur when the Moon is relatively far from Earth. The Moon appears smaller in the sky and therefore is not able to block the entire Sun. At the peak of this eclipse, the Moon blocked 95 percent of the Sun.
    Eclipse_Solar_Annular_Lassen_3073.jpg
  • A composite of six images shows the progression of the annular solar eclipse of May 20, 2012 as viewed from Lassen Volcanic National Park in California. The Moon's distance from Earth varies, and annular solar eclipses occur when the Moon is relatively far from Earth. The Moon appears smaller in the sky and therefore is not able to block the entire Sun. At the peak of this eclipse, the Moon blocked 95 percent of the Sun. This image sequence begins at the top left. The black marks on some of the Sun images are sunspots.
    Eclipse_Solar_Annular_Lassen-05-20-2...jpg
  • A 22° halo forms around the sun over Snohomish County, Washington. The 22° solar halo forms when the sun shines into thin, ice-filled cirrus clouds. The hexagonal ice crystals serve as tiny prisms to create the full-circle rainbow around the sun.
    SolarHalo_22Degree_1846.jpg
  • One of the largest solar flares on record caused this spectacular display of the northern lights (aurora borealis) over Three Fingers Mountain, Liberty Peak, Whitehorse Mountain and other peaks in Washington's North Cascades.
    Northern-Lights_North-Cascades_1835.jpg
  • One of the largest solar flares on record caused this spectacular display of the northern lights (aurora borealis) over Three Fingers Mountain and other peaks in Washington's Central Cascades.
    NorthernLights-1836.jpg
  • The moon partially eclipses the sun as it passes behind cumulus clouds over Snohomish County, Washington. The October 23, 2014 partial solar eclipse was visible over much of North America.
    Sun_PartialEclipse_3656.jpg
  • The northern lights, also known as the aurora borealis, shine over the Central Cascades in Washington state after a severe solar storm. This image was captured on Green Mountain, near the town of Granite Falls.
    NorthernLights_GreenMountain_6204.jpg
  • Solar rays cut through the last traces of fog in the Federation Forest east of Enumclaw, Washington.
    FederationForestBeams.jpg
  • The setting sun reddens low-level clouds, creating a fiery sunset over Pacific Ocean waves as they crash into Venice Beach in California.
    Pacific-Ocean_Fiery-Sunset_Venice_77...jpg
  • Venus is visible against the setting Sun in this view from Kings Canyon National Park, California. Venus, the second planet from the Sun, is visible as a black dot on the lower right corner of the Sun. The transit was visible from at least four continents and is the last until December 2117.
    Sun_Venus_Transit_KingsCanyon_7356.jpg
  • The sun shines through a hole in the clouds, forming crepuscular rays, also known as God beams, over the Green River as it flows through Canyonlands National Park, Utah. Crepuscular rays are beams of light that seem to originate from a single point.
    canyonlands-beams.jpg
  • A bright halo circles the sun as it shines through the clouds over the Little Missouri River and Wind Canyon in Theodore Roosevelt National Park, North Dakota.
    ND_RooseveltNP_Little-Missouri-River...jpg
  • Bright, rainbow-like colors are visible in thin clouds known as iridescent clouds over Bryce Canyon in Utah. Iridescent clouds are relatively rare and appear in clouds formed of small water droplets of nearly uniform size. Commonly, iridescent clouds are near much thicker clouds that partially hide the sun.
    Cloud_Iridescent_Bryce_1071.jpg
  • A natural nighttime pillar of light known as the Zodiacal Light shines above and is reflected in Crater Lake, Oregon. The Zodiacal Light results from the sun shining on dust particles left behind by comets. The dust particles - the largest of which are believed to be just 0.3 mm and miles from its nearest neighboring particle - orbit the sun in a range from Mars to beyond Jupiter. Visible year-round in the tropics, the Zodiacal Light is best viewed immediately around the spring and fall solstice farther from the equator. The planet Venus, the brightest object in the sky, is visible near the peak of the Zodiacal Light and is also reflected in Crater Lake. The Milky Way, visible on the right, intersects with the Zodiacal Light at the top-center of the image. Crater Lake, which is actually a caldera, formed when Mount Mazama erupted violently about 7,700 years ago, causing its summit to collapse. Subsequent eruptions sealed the caldera, trapping rain water and snowmelt, forming the lake, which has a maximum depth of 1,949 feet (594 meters). Wizard Island, a volcanic cinder code, is visible in the foreground.
    CraterLake_ZodiacalLight_9620.jpg
  • A natural nighttime pillar of light known as the Zodiacal Light shines above and is reflected in Crater Lake, Oregon. The Zodiacal Light results from the sun shining on dust particles from old comets. The dust particles - the largest of which are believed to be just 0.3 mm and miles from its nearest neighboring particle - orbit the sun in a range from Mars to beyond Jupiter. Visible year-round in the tropics, the Zodiacal Light is best viewed immediately around the spring and fall solstice farther from the equator. The planet Venus, the brightest object in the sky, is visible near the peak of the Zodiacal Light and is also reflected in Crater Lake. The Milky Way, visible on the right, intersects with the Zodiacal Light at the top-center of the image. Crater Lake, which is actually a caldera, formed when Mount Mazama erupted violently about 7,700 years ago, causing its summit to collapse. Subsequent eruptions sealed the caldera, trapping rain water and snowmelt, forming the lake, which has a maximum depth of 1,949 feet (594 meters). Wizard Island, a volcanic cinder code, is visible in the foreground.
    CraterLake_ZodiacalLight_9909.jpg
  • The midday sun shines through a narrow opening at the top of a slot canyon in the Coyote Gulch area of the Grand Staircase Escalante in Utah.
    CoyoteGulchSunburst.jpg
  • An adult bald eagle (Haliaeetus leucocephalus) watches over Lake Washington as the sun sets behind its perch in a tree in Kirkland, Washington.
    BaldEagle_Sunset_Silhouette_Kirkland...jpg
  • The Milky Way is visible in the midnight sky over the eastern flank of Mount Rainier in Washington state. The Milky Way is the galaxy that contains our solar system and is comprised of as many as 400 billion stars and 100 billion planets. Its name comes from the appearance of a band of stars that from Earth are so close together that they cannot be distinguished as individual stars with the naked eye. Mount Rainier, which has a summit of 14,411 feet (4,392 meters), is the highest mountain in Washington state and largest volcano in the Cascade Range. This view was captured from Sunrise in Mount Rainier National Park.
    Rainier_Milky-Way_Sunrise_0095.jpg
  • Comet C/2020 F3 (NEOWISE) shines in the twilight sky over Skagit Bay in this view from Camano Island, Washington. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Comet_Neowise_C2020F3_Skagit-Bay_851...jpg
  • The Milky Way stretches across the sky over the Mormon Basin in Malheur County, Oregon. The Milky Way is the galaxy that contains our solar system and is comprised of as many as 400 billion stars and 100 billion planets. Its name comes from the appearance of a band of stars that from Earth are so close together that they cannot be distinguished as individual stars with the naked eye.
    Milky-Way_Malheur-County_3821.jpg
  • One of the largest solar flares in years resulted in this display of the northern lights (aurora borealis) over Washington's North Cascades on October 30, 2003. The Big Dipper constellation is visible in the right half of the frame. This image was captured from Mount Pilchuck, east of Everett, Washington.
    NorthernLights_1832_V.jpg
  • A severe solar storm resulted in this vibrant display of the northern lights (aurora borealis) over several Vancouver Island peaks. Mountains in this image include Mount Walker, Malaspina Peak, Mount Alava, Stevens Peak, Leighton Peak and Conuma Peak.
    NorthernLights-VancouverIsland.jpg
  • The Milky Way is visible in the midnight sky over the eastern flank of Mount Rainier in Washington state. The Milky Way is the galaxy that contains our solar system and is comprised of as many as 400 billion stars and 100 billion planets. Its name comes from the appearance of a band of stars that from Earth are so close together that they cannot be distinguished as individual stars with the naked eye. Mount Rainier, which has a summit of 14,411 feet (4,392 meters), is the highest mountain in Washington state and largest volcano in the Cascade Range. This view was captured from Sunrise in Mount Rainier National Park.
    Rainier_Milky-Way_Sunrise_0095PC.jpg
  • Mount Rainier and Comet C/2020 F3 (NEOWISE) are reflected on Reflection Lake in Mount Rainier National Park, Washington. Mount Rainier, which has a summit of 14,411 feet (4,392 meters), is the highest mountain in Washington state and largest volcano in the Cascade Range. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Rainer_Comet-Neowise_Reflection-Lake...jpg
  • Comet C/2020 F3 (NEOWISE) and a meteor shine in the night sky over Mount Rainier in Washington state. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago. Mount Rainier, which has a summit of 14,411 feet (4,392 meters), is the highest mountain in Washington state and largest volcano in the Cascade Range.
    Rainier_Comet-Neowise_High-Rock_8277.jpg
  • Comet C/2020 F3 (NEOWISE) shines bright in the morning sky near a tall mountain hemlock tree in Mount Rainier National Park, Washington. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Comet_Neowise_C2020F3_Evergreen_8151.jpg
  • Comet C/2020 F3 (NEOWISE) shines bright in the morning sky on July 9, 2020. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Comet_Neowise-C2020F3_8097.jpg
  • A circumzenithal arc appears to stretch across the tops of trees on Cougar Mountain near Bellevue, Washington. Circumzenithal arcs appear as upside-down rainbows and are the brightest and most colorful of all the solar halos. They appear when the sun is relatively low on the horizon, less than 32 degrees above the horizon and ideally 20°, and cirrus clouds are overhead. Circumzenithal arcs are especially bright and vibrant because the ice crystals in the cirrus clouds are perfectly aligned, passing through almost parallel bands of light.
    Circumzenithal_Arc_3523.jpg
  • Comet C/2020 F3 (NEOWISE) shines in the morning sky alongside trees near a beach on Camano Island, Washington. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Comet_Neowise_C2020F3_Camano_8519.jpg
  • Mount Rainier and Comet C/2020 F3 (NEOWISE) are reflected on Reflection Lake in Mount Rainier National Park, Washington. Mount Rainier, which has a summit of 14,411 feet (4,392 meters), is the highest mountain in Washington state and largest volcano in the Cascade Range. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Rainer_Comet-Neowise_Reflection-Lake...jpg
  • Mount Rainier, the tallest mountain in the Cascade Range, is rendered in near silhouette as Comet C/2020 F3 (NEOWISE) and noctilucent clouds provide some light in the twilight sky in this view from High Rock in Washington state. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Rainier_Comet-Neowise_Noctilucent-Cl...jpg
  • Comet C/2020 F3 (NEOWISE) shines bright over a forested ridge in Mount Rainier National Park, Washington. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Comet_Neowise_C2020F3_Forest-Ridge_8...jpg
  • Comet C/2020 F3 (NEOWISE) shines in the sky above the Columbia National Wildlife Refuge near Othello, Washington, casting its reflection onto McMannaman Lake. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    WA_Columbia-NWR_Comet-NEOWISE_8737.jpg
  • Comet C/2020 F3 (NEOWISE) shines in the sky above the Columbia National Wildlife Refuge near Othello, Washington, casting its reflection onto McMannaman Lake. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    WA_Columbia-NWR_Comet-NEOWISE_8072.jpg
  • Mount Rainier, the tallest mountain in the Cascade Range, is rendered in near silhouette as Comet C/2020 F3 (NEOWISE) and noctilucent clouds provide some light in the twilight sky in this view from High Rock in Washington state. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Rainier_Comet-Neowise_Noctilucent-Cl...jpg
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