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Based on data from NASA's Hubble and Spitzer Space Telescopes, these simulated views of the ultrahot Jupiter WASP-121b show what the planet might look like from five different vantage points, illuminated to different degrees by its parent star.
Based on data from NASA's Hubble and Spitzer Space Telescopes, these simulated views of the ultrahot Jupiter WASP-121b show what the planet might look like from five different vantage points, illuminated to different degrees by its parent star.

Ultrahot Jupiter WASP-121b

Based on data from NASA's Hubble and Spitzer Space Telescopes, these simulated views of the ultrahot Jupiter WASP-121b show what the planet might look like from five different vantage points, illuminated to different degrees by its parent star.

Mission: Hubble Space Telescope, Spitzer Space Telescope
ID#: PIA22565
Added: 2018-08-09

Views: 902

Ultrahot Jupiter WASP-121b

Based on data from NASA's Hubble and Spitzer Space Telescopes, these simulated views of the ultrahot Jupiter WASP-121b show what the planet might look like from five different vantage points, illuminated to different degrees by its parent star.

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Thin, red veins of energized gas mark the location of the supernova remnant HBH 3 in this image from NASA's Spitzer Space Telescope.
Thin, red veins of energized gas mark the location of the supernova remnant HBH 3 in this image from NASA's Spitzer Space Telescope.

Spitzer Spies Supernova Remnant HBH 3

Thin, red veins of energized gas mark the location of the supernova remnant HBH 3 in this image from NASA's Spitzer Space Telescope.

Mission: Spitzer Space Telescope
Instrument: Infrared Array Camera (IRAC)
ID#: PIA22564
Added: 2018-08-02

Views: 3476

Spitzer Spies Supernova Remnant HBH 3

Thin, red veins of energized gas mark the location of the supernova remnant HBH 3 in this image from NASA's Spitzer Space Telescope.

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This artist's illustration shows the comet 'Oumuamua racing toward the outskirts of our solar system.
This artist's illustration shows the comet 'Oumuamua racing toward the outskirts of our solar system.

'Oumuamua Races Toward Outskirts of Solar System (Artist's Concept)

This artist's illustration shows the comet 'Oumuamua racing toward the outskirts of our solar system.

ID#: PIA22357
Added: 2018-06-28

Views: 1250

'Oumuamua Races Toward Outskirts of Solar System (Artist's Concept)

This artist's illustration shows the comet 'Oumuamua racing toward the outskirts of our solar system.

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An image of the galaxy Arp299B, which is undergoing a merging process with Arp299A (the galaxy to the left), captured by NASA's Hubble space telescope.
An image of the galaxy Arp299B, which is undergoing a merging process with Arp299A (the galaxy to the left), captured by NASA's Hubble space telescope.

A Tidal Disruption Event in Arp299B

An image of the galaxy Arp299B, which is undergoing a merging process with Arp299A (the galaxy to the left), captured by NASA's Hubble space telescope.

Mission: Hubble Space Telescope
ID#: PIA22356
Added: 2018-06-15

Views: 1380

A Tidal Disruption Event in Arp299B

An image of the galaxy Arp299B, which is undergoing a merging process with Arp299A (the galaxy to the left), captured by NASA's Hubble space telescope.

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An artist's concept of a tidal disruption event (TDE) that happens when a star passes fatally close to a supermassive black hole, which reacts by launching a relativistic jet.
An artist's concept of a tidal disruption event (TDE) that happens when a star passes fatally close to a supermassive black hole, which reacts by launching a relativistic jet.

Black Hole vs. Star: A Tidal Disruption Event (Artist's Concept)

An artist's concept of a tidal disruption event (TDE) that happens when a star passes fatally close to a supermassive black hole, which reacts by launching a relativistic jet.

ID#: PIA22355
Added: 2018-06-15

Views: 1633

Black Hole vs. Star: A Tidal Disruption Event (Artist's Concept)

An artist's concept of a tidal disruption event (TDE) that happens when a star passes fatally close to a supermassive black hole, which reacts by launching a relativistic jet.

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This image from an animation shows the merger of two white dwarfs. A white dwarf is an extremely dense remnant of a star that can no longer burn nuclear fuel at its core.
This image from an animation shows the merger of two white dwarfs. A white dwarf is an extremely dense remnant of a star that can no longer burn nuclear fuel at its core.

Kepler Beyond Planets: Finding Exploding Stars (Type Ia Supernova from a White Dwarf Merger)

This image from an animation shows the merger of two white dwarfs. A white dwarf is an extremely dense remnant of a star that can no longer burn nuclear fuel at its core.

Mission: Kepler
ID#: PIA22353
Added: 2018-03-26

Views: 1350

Kepler Beyond Planets: Finding Exploding Stars (Type Ia Supernova from a White Dwarf Merger)

This image from an animation shows the merger of two white dwarfs. A white dwarf is an extremely dense remnant of a star that can no longer burn nuclear fuel at its core.

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This image from an animation shows the explosion of a white dwarf, an extremely dense remnant of a star that can no longer burn nuclear fuel at its core.
This image from an animation shows the explosion of a white dwarf, an extremely dense remnant of a star that can no longer burn nuclear fuel at its core.

Kepler Beyond Planets: Finding Exploding Stars (Type Ia Supernova from a White Dwarf Stealing Matter)

This image from an animation shows the explosion of a white dwarf, an extremely dense remnant of a star that can no longer burn nuclear fuel at its core.

Mission: Kepler
ID#: PIA22352
Added: 2018-03-26

Views: 1734

Kepler Beyond Planets: Finding Exploding Stars (Type Ia Supernova from a White Dwarf Stealing Matter)

This image from an animation shows the explosion of a white dwarf, an extremely dense remnant of a star that can no longer burn nuclear fuel at its core.

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This image from an animation shows a kind of stellar explosion called a Fast-Evolving Luminous Transient. In this case, a giant star 'burp' out a shell of gas and dust about a year before exploding.
This image from an animation shows a kind of stellar explosion called a Fast-Evolving Luminous Transient. In this case, a giant star 'burp' out a shell of gas and dust about a year before exploding.

Kepler Beyond Planets: Finding Exploding Stars (Type Felt Supernova)

This image from an animation shows a kind of stellar explosion called a Fast-Evolving Luminous Transient. In this case, a giant star 'burp' out a shell of gas and dust about a year before exploding.

Mission: Kepler
ID#: PIA22351
Added: 2018-03-26

Views: 1100

Kepler Beyond Planets: Finding Exploding Stars (Type Felt Supernova)

This image from an animation shows a kind of stellar explosion called a Fast-Evolving Luminous Transient. In this case, a giant star 'burp' out a shell of gas and dust about a year before exploding.

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This image from an animation shows a gigantic star exploding in a 'core collapse' supernova. As molecules fuse inside the star, eventually the star can't support its own weight anymore.
This image from an animation shows a gigantic star exploding in a 'core collapse' supernova. As molecules fuse inside the star, eventually the star can't support its own weight anymore.

Kepler Beyond Planets: Finding Exploding Stars (Core Collapse Supernova)

This image from an animation shows a gigantic star exploding in a 'core collapse' supernova. As molecules fuse inside the star, eventually the star can't support its own weight anymore.

Mission: Kepler
ID#: PIA22350
Added: 2018-03-26

Views: 646

Kepler Beyond Planets: Finding Exploding Stars (Core Collapse Supernova)

This image from an animation shows a gigantic star exploding in a 'core collapse' supernova. As molecules fuse inside the star, eventually the star can't support its own weight anymore.

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This is a frame from a video which shows illustrations of the seven Earth-size planets of TRAPPIST-1, an exoplanet system about 40 light-years away, based on data current as of February 2018.
This is a frame from a video which shows illustrations of the seven Earth-size planets of TRAPPIST-1, an exoplanet system about 40 light-years away, based on data current as of February 2018.

TRAPPIST-1 Planet Animations

This is a frame from a video which shows illustrations of the seven Earth-size planets of TRAPPIST-1, an exoplanet system about 40 light-years away, based on data current as of February 2018.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA22098
Added: 2018-02-05

Views: 1404

TRAPPIST-1 Planet Animations

This is a frame from a video which shows illustrations of the seven Earth-size planets of TRAPPIST-1, an exoplanet system about 40 light-years away, based on data current as of February 2018.

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This illustration shows the seven Earth-size planets of TRAPPIST-1. The image does not show the planets' orbits to scale, but highlights possibilities for how the surfaces of these intriguing worlds might look.
This illustration shows the seven Earth-size planets of TRAPPIST-1. The image does not show the planets' orbits to scale, but highlights possibilities for how the surfaces of these intriguing worlds might look.

Illustration of TRAPPIST-1 Planets as of Feb. 2018

This illustration shows the seven Earth-size planets of TRAPPIST-1. The image does not show the planets' orbits to scale, but highlights possibilities for how the surfaces of these intriguing worlds might look.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA22097
Added: 2018-02-05

Views: 2385

Illustration of TRAPPIST-1 Planets as of Feb. 2018

This illustration shows the seven Earth-size planets of TRAPPIST-1. The image does not show the planets' orbits to scale, but highlights possibilities for how the surfaces of these intriguing worlds might look.

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All seven planets discovered in orbit around the red dwarf star TRAPPIST-1 could easily fit inside the orbit of Mercury, the innermost planet of our solar system. In fact, they would have room to spare.
All seven planets discovered in orbit around the red dwarf star TRAPPIST-1 could easily fit inside the orbit of Mercury, the innermost planet of our solar system. In fact, they would have room to spare.

TRAPPIST-1 Compared to Jovian Moons and Inner Solar System - Updated Feb. 2018

All seven planets discovered in orbit around the red dwarf star TRAPPIST-1 could easily fit inside the orbit of Mercury, the innermost planet of our solar system. In fact, they would have room to spare.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA22096
Added: 2018-02-05

Views: 2455

TRAPPIST-1 Compared to Jovian Moons and Inner Solar System - Updated Feb. 2018

All seven planets discovered in orbit around the red dwarf star TRAPPIST-1 could easily fit inside the orbit of Mercury, the innermost planet of our solar system. In fact, they would have room to spare.

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This graph presents known properties of the seven TRAPPIST-1 exoplanets (labeled b through h), showing how they stack up to the inner rocky worlds in our own solar system.
This graph presents known properties of the seven TRAPPIST-1 exoplanets (labeled b through h), showing how they stack up to the inner rocky worlds in our own solar system.

Comparing TRAPPIST-1 to the Solar System

This graph presents known properties of the seven TRAPPIST-1 exoplanets (labeled b through h), showing how they stack up to the inner rocky worlds in our own solar system.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA22095
Added: 2018-02-05

Views: 1514

Comparing TRAPPIST-1 to the Solar System

This graph presents known properties of the seven TRAPPIST-1 exoplanets (labeled b through h), showing how they stack up to the inner rocky worlds in our own solar system.

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This chart shows artist concepts of the seven planets of TRAPPIST-1 with their orbital periods, distances from their star, radii, masses, densities and surface gravity as compared to those of Earth. These numbers are current as of February 2018.
This chart shows artist concepts of the seven planets of TRAPPIST-1 with their orbital periods, distances from their star, radii, masses, densities and surface gravity as compared to those of Earth. These numbers are current as of February 2018.

TRAPPIST-1 Planet Lineup - Updated Feb. 2018

This chart shows artist concepts of the seven planets of TRAPPIST-1 with their orbital periods, distances from their star, radii, masses, densities and surface gravity as compared to those of Earth. These numbers are current as of February 2018.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA22094
Added: 2018-02-05

Views: 6821

TRAPPIST-1 Planet Lineup - Updated Feb. 2018

This chart shows artist concepts of the seven planets of TRAPPIST-1 with their orbital periods, distances from their star, radii, masses, densities and surface gravity as compared to those of Earth. These numbers are current as of February 2018.

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This artist's concept shows what the TRAPPIST-1 planetary system may look like, based on available data about the planets' diameters, masses and distances from the host star, as of February 2018.
This artist's concept shows what the TRAPPIST-1 planetary system may look like, based on available data about the planets' diameters, masses and distances from the host star, as of February 2018.

TRAPPIST-1 Planet Lineup - Updated Feb. 2018

This artist's concept shows what the TRAPPIST-1 planetary system may look like, based on available data about the planets' diameters, masses and distances from the host star, as of February 2018.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA22093
Added: 2018-02-05

Views: 2268

TRAPPIST-1 Planet Lineup - Updated Feb. 2018

This artist's concept shows what the TRAPPIST-1 planetary system may look like, based on available data about the planets' diameters, masses and distances from the host star, as of February 2018.

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This image of distant interacting galaxies, known collectively as Arp 142, bears an uncanny resemblance to a penguin guarding an egg. Data from NASA's Spitzer and Hubble space telescopes have been combined to show these dramatic galaxies.
This image of distant interacting galaxies, known collectively as Arp 142, bears an uncanny resemblance to a penguin guarding an egg. Data from NASA's Spitzer and Hubble space telescopes have been combined to show these dramatic galaxies.

Arp 142: The Penguin and the Egg

This image of distant interacting galaxies, known collectively as Arp 142, bears an uncanny resemblance to a penguin guarding an egg. Data from NASA's Spitzer and Hubble space telescopes have been combined to show these dramatic galaxies.

Mission: Hubble Space Telescope, Spitzer Space Telescope
ID#: PIA22092
Added: 2018-01-31

Views: 3956

Arp 142: The Penguin and the Egg

This image of distant interacting galaxies, known collectively as Arp 142, bears an uncanny resemblance to a penguin guarding an egg. Data from NASA's Spitzer and Hubble space telescopes have been combined to show these dramatic galaxies.

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This artist's concept showcases both the visible and infrared visualizations of the Orion Nebula, looking down a 'valley' leading to the star cluster at far end.
This artist's concept showcases both the visible and infrared visualizations of the Orion Nebula, looking down a 'valley' leading to the star cluster at far end.

Visible and Infrared Visualization of the Orion Nebula (Artist's Concept)

This artist's concept showcases both the visible and infrared visualizations of the Orion Nebula, looking down a 'valley' leading to the star cluster at far end.

Mission: Hubble Space Telescope, Spitzer Space Telescope
ID#: PIA22089
Added: 2018-01-11

Views: 4396

Visible and Infrared Visualization of the Orion Nebula (Artist's Concept)

This artist's concept showcases both the visible and infrared visualizations of the Orion Nebula, looking down a 'valley' leading to the star cluster at far end.

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This artist concept shows the K2-138 system, the first multi-planet system discovered by citizen scientists.
This artist concept shows the K2-138 system, the first multi-planet system discovered by citizen scientists.

Kepler K2-138 System (Artist's Concept)

This artist concept shows the K2-138 system, the first multi-planet system discovered by citizen scientists.

Mission: Kepler
ID#: PIA22088
Added: 2018-01-11

Views: 4394

Kepler K2-138 System (Artist's Concept)

This artist concept shows the K2-138 system, the first multi-planet system discovered by citizen scientists.

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NASA's Hubble Space Telescope shows the farthest galaxy yet seen in an image that has been stretched and amplified by a phenomenon called gravitational lensing.
NASA's Hubble Space Telescope shows the farthest galaxy yet seen in an image that has been stretched and amplified by a phenomenon called gravitational lensing.

NASA's Hubble Spots Embryonic Galaxy SPT0615-JD

NASA's Hubble Space Telescope shows the farthest galaxy yet seen in an image that has been stretched and amplified by a phenomenon called gravitational lensing.

Mission: Hubble Space Telescope
ID#: PIA22079
Added: 2018-01-11

Views: 7271

NASA's Hubble Spots Embryonic Galaxy SPT0615-JD

NASA's Hubble Space Telescope shows the farthest galaxy yet seen in an image that has been stretched and amplified by a phenomenon called gravitational lensing.

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This artist's impression is of NASA's New Horizons spacecraft encountering 2014 MU69, a Kuiper Belt object that orbits one billion miles (1.6 billion kilometers) beyond Pluto, on Jan. 1, 2019.
This artist's impression is of NASA's New Horizons spacecraft encountering 2014 MU69, a Kuiper Belt object that orbits one billion miles (1.6 billion kilometers) beyond Pluto, on Jan. 1, 2019.

New Horizons Encountering 2014 MU69 (Artist's Impression)

This artist's impression is of NASA's New Horizons spacecraft encountering 2014 MU69, a Kuiper Belt object that orbits one billion miles (1.6 billion kilometers) beyond Pluto, on Jan. 1, 2019.

Target: 2014 MU69
Mission: New Horizons
ID#: PIA22190
Added: 2018-01-04

Views: 935

New Horizons Encountering 2014 MU69 (Artist's Impression)

This artist's impression is of NASA's New Horizons spacecraft encountering 2014 MU69, a Kuiper Belt object that orbits one billion miles (1.6 billion kilometers) beyond Pluto, on Jan. 1, 2019.

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With the discovery of an eighth planet, NASA's Kepler-90 system is the first to tie with our solar system in number of planets. This is an artist's concept compared with our own solar system.
With the discovery of an eighth planet, NASA's Kepler-90 system is the first to tie with our solar system in number of planets. This is an artist's concept compared with our own solar system.

Kepler-90 System Compared to Our Solar System (Artist's Concept)

With the discovery of an eighth planet, NASA's Kepler-90 system is the first to tie with our solar system in number of planets. This is an artist's concept compared with our own solar system.

Mission: Kepler
ID#: PIA22193
Added: 2017-12-14

Views: 7445

Kepler-90 System Compared to Our Solar System (Artist's Concept)

With the discovery of an eighth planet, NASA's Kepler-90 system is the first to tie with our solar system in number of planets. This is an artist's concept compared with our own solar system.

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With the discovery of an eighth planet, NASA's Kepler-90 system is the first to tie with our solar system in number of planets. This is an artist's concept.
With the discovery of an eighth planet, NASA's Kepler-90 system is the first to tie with our solar system in number of planets. This is an artist's concept.

Kepler-90 system (Artist's Concept)

With the discovery of an eighth planet, NASA's Kepler-90 system is the first to tie with our solar system in number of planets. This is an artist's concept.

Mission: Kepler
ID#: PIA22192
Added: 2017-12-14

Views: 1898

Kepler-90 system (Artist's Concept)

With the discovery of an eighth planet, NASA's Kepler-90 system is the first to tie with our solar system in number of planets. This is an artist's concept.

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To receive the same amount of starlight as Mars receives from our Sun, a planet orbiting an M-type red dwarf would have to be positioned much closer to its star than Mercury is to the Sun.
To receive the same amount of starlight as Mars receives from our Sun, a planet orbiting an M-type red dwarf would have to be positioned much closer to its star than Mercury is to the Sun.

How Habitable Might an Exo-Mars Be?

To receive the same amount of starlight as Mars receives from our Sun, a planet orbiting an M-type red dwarf would have to be positioned much closer to its star than Mercury is to the Sun.

Mission: Mars Atmosphere and Volatile Evolution MissioN (MAVEN)
ID#: PIA22075
Added: 2017-12-13

Views: 986

How Habitable Might an Exo-Mars Be?

To receive the same amount of starlight as Mars receives from our Sun, a planet orbiting an M-type red dwarf would have to be positioned much closer to its star than Mercury is to the Sun.

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A NASA-led team of scientists determined that WASP-18b, a 'hot Jupiter' located 325 light-years from Earth, has a stratosphere that's loaded with carbon monoxide, but has no signs of water.
A NASA-led team of scientists determined that WASP-18b, a 'hot Jupiter' located 325 light-years from Earth, has a stratosphere that's loaded with carbon monoxide, but has no signs of water.

WASP-18b (Artist's Concept)

A NASA-led team of scientists determined that WASP-18b, a 'hot Jupiter' located 325 light-years from Earth, has a stratosphere that's loaded with carbon monoxide, but has no signs of water.

ID#: PIA22087
Added: 2017-11-29

Views: 1337

WASP-18b (Artist's Concept)

A NASA-led team of scientists determined that WASP-18b, a 'hot Jupiter' located 325 light-years from Earth, has a stratosphere that's loaded with carbon monoxide, but has no signs of water.

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The super-Earth exoplanet 55 Cancri e, depicted with its star in this artist's concept, likely has an atmosphere thicker than Earth's but with ingredients that could be similar to those of Earth's atmosphere.
The super-Earth exoplanet 55 Cancri e, depicted with its star in this artist's concept, likely has an atmosphere thicker than Earth's but with ingredients that could be similar to those of Earth's atmosphere.

55 Cancri e with Atmosphere (Artist's Concept)

The super-Earth exoplanet 55 Cancri e, depicted with its star in this artist's concept, likely has an atmosphere thicker than Earth's but with ingredients that could be similar to those of Earth's atmosphere.

Mission: Spitzer Space Telescope
ID#: PIA22069
Added: 2017-11-16

Views: 1795

55 Cancri e with Atmosphere (Artist's Concept)

The super-Earth exoplanet 55 Cancri e, depicted with its star in this artist's concept, likely has an atmosphere thicker than Earth's but with ingredients that could be similar to those of Earth's atmosphere.

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Currently displaying images 1-25 of 1008
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