1990
May 20, 1990 – First image taken
The “first light” image from Hubble was taken with the Wide Field and Planetary Camera to assist in focusing the telescope. The image illustrated Hubble’s improved resolution compared to ground-based observatories, showing that its images were roughly 50 percent sharper than ground-based images.
![Two black and white images. Left is ground based image, the right is a Hubble image.](https://science.nasa.gov/wp-content/uploads/2023/04/hs-1990-04-a-full.png?w=4096&format=png)
August 29, 1990 – Supernova 1987A ring resolved
In one of the telescope’s first science results, Hubble observed the remnants of Supernova 1987A, as shared in a press release issued on August 29, 1990. In unprecedented detail, Hubble revealed characteristics in a shell of material surrounding the supernova.
![Just left of image center is a pink spot. It is ringed by a yellow-green oval. To its left is a bright-blue spot, another sits to the far right edge.](https://science.nasa.gov/wp-content/uploads/2023/09/Supernova1987a.jpeg?w=4096&format=jpeg)
October 1, 1990 – First Hubble science paper submitted
The first science paper produced from Hubble observations was submitted by Tod Lauer of the National Optical Astronomy Observatory in Tucson, Arizona. The paper reported observations of the environment around a suspected black hole in the core of galaxy NGC 7457.
![Left: a faint grey haze against a black background. Right: A large, bright-grey, oval surrounded by a fainter grey haze](https://science.nasa.gov/wp-content/uploads/2023/04/center_of_galaxy_ngc_7457_0-jpg.webp?w=4096&format=png)
1991
January 16, 1991 – Accurate distance measured to neighboring galaxy
Hubble observations from 1990 that detailed the remnants of Supernova 1987A also provided an unexpected bonus: an accurate determination of the distance to the Large Magellanic Cloud, a satellite galaxy of the Milky Way and the supernova’s galactic home. The distance was measured at 169,000 light-years, within a five-percent accuracy.
![A bright circle in the center of a broken, oval ring.](https://science.nasa.gov/wp-content/uploads/2023/04/supernova_1987a_0-jpg.webp?w=4096&format=png)
May 17, 1991 – Hubble’s first images of Jupiter released
In March 1991, Hubble took its first observations of the planet Jupiter. Released on May 17 of that year, the stills featured the Great Red Spot.
![Only a quarter of the planet Jupiter is visible extending from the lower-right corner across the image. Colors of orange, rusty-red, and white bands.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-firstviewjupiter-stsci-01evtb905nad99yfyv94seeg5n.jpg?w=4096&format=jpeg)
1992
January 13, 1992 – Chemistry of early universe probed
Astronomers announced that they had detected the rare element boron in an ancient star. This was the first time that astronomers using Hubble had detected elements from the early universe, and this discovery suggested that the element might have been evidence of energetic events that occurred with the birth of our Milky Way galaxy.
![Black background filled with stars. A very bright one is at image center.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-chemearlyuniverse-opo1308a.jpg?w=4096&format=jpeg)
November 19, 1992 – Material fueling black hole discovered
Hubble observations were released showing a disk of material being pulled into a suspected black hole at the core of NGC 4261, a giant elliptical galaxy located 45 million light-years away.
At the time, black holes were merely theoretical objects with gravitational pulls so strong that not even light could escape it. This theory has since been proven by astronomers.
![A disk in orange-red, and yellow-white. A yellow white point at image center surrounded by a deep orange-red disk that is ringed by yellow-white and then more orange-red.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-ngc4261-core-stsci-01evtb3x6gaw32dnbfwsszfe70.jpg?w=4096&format=jpeg)
1993
June 9, 1993 – Hubble takes major step in determining universe’s age
Astronomers using Hubble announced that they had determined a much more precise distance to galaxy M81, finding it to be 11 million light-years away. (Previous estimates had ranged from 4.5 million to 18 million light-years away.) Only with precise distance measurements to galaxies can astronomers refine the universe’s expansion rate and, in turn, its age. At the time, the age of the universe was estimated to be between 10 billion and 20 billion years old. (Today its age is estimated to be 13.8 billion years.)
![A grid of images, 4 columns and 4 rows. Each image holds clumps of bright-white and dots of green, blue, red, and yellow.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-m81cepheids-stsci-01evvmw66rjmk80e9cbsgh17b4.jpg?w=4096&format=jpeg)
1994
January 14, 1994 – Observations released of massive, unstable star
Hubble observed the star Eta Carinae with the Wide Field and Planetary Camera 2, and its observations were released on January 14, 1994. Eta Carinae is a highly unstable star prone to violent outburst that is 4 million times brighter and 150 times more massive than our Sun. It resides over 10,000 light-years away.
![A double-lobed cloud of gas in yellow and pink hues veined with dark dust lanes surrounded by outflows of more reddish-orange-colored gas. Three stars below and to the right of the lobes.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-etacarinae-1994-stsci-01evvmtbf9ncpm36c50f9ets4s.jpg?w=4096&format=jpeg)
May 25, 1994 – Existence of supermassive black holes confirmed
Astronomers reported that Hubble observations confirmed the existence of supermassive black holes at the centers of galaxies. Astronomers had looked at the giant elliptical galaxy M87, located 50 million light-years away from Earth, and found evidence that supported the existence of a gravitationally collapsed object with rapid rotation at its core.
![Bright-orange cloud. A bright-yellow point at lower left, from which shoots out a jet of material toward the upper right.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-m87-blackhole-stsci-01evvmrj4mnts4bf8nc4xazyf9.jpg?w=4096&format=jpeg)
July 16–23, 1994 – Comet Shoemaker-Levy 9 struck Jupiter
On July 16, 1994, fragments of the comet Shoemaker-Levy 9 began to impact Jupiter. For the next several days, Hubble observed the remaining fragments from the comet crashing into Jupiter’s atmosphere and leaving visible, bruise-like marks in the planet’s atmosphere. This was the first time astronomers had witnessed the collision of two astronomical objects.
![String of impact scars in the clouds of Jupiter](https://science.nasa.gov/wp-content/uploads/2023/07/String_of_impact_scars_in_the_clouds_of_Jupiter.jpeg?w=4096&format=jpeg)
November 8, 1994 – Surface features of Titan resolved
Scientists using Hubble announced that they had produced the first-ever images of surface features on Saturn’s moon Titan. Larger than Mercury but smaller than Mars, Titan has an atmosphere about four times as dense as Earth’s atmosphere, with nitrogen being its primary component.
![Four reddish, white, yellow, and maroon globes.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-titan-stsci-01evtaxmver8t7skkf8b1n9nza.jpg?w=4096&format=jpeg)
1995
February 23, 1995 – Oxygen found on Europa
Astronomers announced that they had used Hubble to identify the presence of oxygen in the atmosphere of Jupiter’s moon Europa. This was the first time astronomers identified oxygen in the atmosphere of a satellite and only the third object beyond Earth to possess the gaseous element.
![Half of Europa is visible. It is a dark, cream-colored world with reddish-brown streaks/cracks in its icy surface.](https://science.nasa.gov/wp-content/uploads/2023/09/204_PIA19048-Europa-800.jpg?w=4096&format=jpeg)
November 2, 1995 – Star birth seen in the Eagle Nebula
Hubble’s iconic image of towering columns of gas and dust in the Eagle Nebula (M16) was released to the world. The image, nicknamed the Pillars of Creation, shows newborn stars emerging from dense pockets of interstellar gas.
![Three dark brown pillars of dust and gas jut out against a greenish background.](https://science.nasa.gov/wp-content/uploads/2023/04/hubble-eaglenebula-browse-jpg.webp?w=4096&format=png)
1996
January 15, 1996 – Hubble Deep Field image released
Astronomers released the Hubble Deep Field image, the deepest and most detailed view of the universe at the time. Consisting of 342 separate exposures taken with the Wide Field and Planetary Camera 2 over ten consecutive days in December 1995, the image contains at least 1,500 galaxies at various stages of development. The image represented a small portion of the sky, roughly the size of a dime seen from 75 feet away.
![Hundreds of galaxies of all shapes and sizes shining against the dark background of space.](https://images-assets.nasa.gov/image/PIA12110/PIA12110~orig.jpg?w=1771&h=1819&fit=clip&crop=faces%2Cfocalpoint)
January 17, 1996 – Evidence presented of a planet orbiting star Beta Pictoris
Hubble observations were presented providing strong evidence that a large planet orbits the star Beta Pictoris. Hubble showed that the inner region of dust around the star is unexpectedly warped, which astronomers deduced was caused by the gravitational pull of an unseen planet.
![Top: Black and white image of the system. Bottom: False color image of the system.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-betapic-stsci-01evtasvzvc41ttrdzaab8a39m.jpg?w=4096&format=jpeg)
March 7, 1996 – Pluto’s surface revealed
Astronomers published Hubble images of Pluto, which revealed details on the dwarf planet’s surface for the first time. Hubble’s observations showed brightness variations on the surface that could be topographic features such as basins or impact craters.
![Two black and white, mottled spheres.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-plutosurface-stsci-01evtary6tmvwn0jr8a3h1bav1.jpg?w=4096&format=jpeg)
January 10, 1996 – First image of a star's surface released
Astronomers released the first direct image of the surface of a star other than the Sun. The Hubble image showed Betelgeuse, a nearby red supergiant star in the constellation Orion. The observation revealed a huge ultraviolet atmosphere and a mysterious hot spot on the star's surface.
![This image has three panels: one on the right, taking up about half the image, and two stacked on the left. In the upper left is a Hubble image of Betelgeuse. The star looks like a glowing ball of yellow light with a bright yellow circle in the center that fades outward to a dark orange. The outer edges appear hazy. Below the image of Betelgeuse are three scale bars. The first shows the size of the star as seen in the Hubble image above. Below that is a scale bar showing the size of Earth’s orbit, which is about a 15% the length of the star’s size. Finally, the last scale bar shows the orbit of Jupiter, which is about 70% as long as the star’s size. The panel on the right shows a black background with many stars of different sizes dotted around the image. The stars of Orion are called out with light white lines drawn between the major stars. An arrow points to one star at the upper left, the location of Betelgeuse.](https://science.nasa.gov/wp-content/uploads/2023/06/betelgeuse-location-and-size.png?w=4096&format=png)
1997
May 12, 1997 – Black hole signature recorded
Hubble astronomers announced the discovery of a supermassive black hole in the center of galaxy M84. A spectrographic signature of the black hole was recorded using Hubble’s newly installed Space Telescope Imaging Spectrograph (STIS), which mapped the motions of gas caught in the black hole’s gravitational pull.
![Hubble observations of M84 by WFPC2 (left) and STIS instruments](https://science.nasa.gov/wp-content/uploads/2023/04/hs-1997-12-a-print-crop-jpg.webp?w=4096&format=png)
June 19, 1997 – Plume from Io imaged
Astronomers announced that Hubble had observed a 250-mile-high plume of gas and dust from a volcanic eruption on Jupiter’s innermost moon, Io. Scientists estimated that the material must have been ejected from the volcano at more than 2,000 miles per hour. At the time, it was the largest plume yet seen on Io.
![A mottled, reddish-orange sphere sits on a blue and light orange background. A plume of reddish-orange gas extends from the left side of Io.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-ioplume-stsci-01evvkb3s72vbn7118vq0j74am.jpg?w=4096&format=jpeg)
1998
September 1998 – Preliminary evidence for an accelerating universe obtained
Astronomers using Hubble published the first evidence that the expansion of the universe is not slowing down, as expected, but accelerating. The results were based on distance measurements to supernovae located so far away that they allowed astronomers to determine the expansion rate of the universe.
![Changes in the Rate of Expansion over Time](https://science.nasa.gov/wp-content/uploads/2023/04/magnetosphere-cropped-jpg.webp?w=4096&format=png)
1999
January 6, 1999 – Sharpest view of Ring Nebula released
Hubble released this image of the Ring Nebula, which was discovered by French astronomer Charles Messier over 200 years ago and cataloged as Messier 57 (M57). This planetary nebula (so named because of its resemblance to a round planet in small telescopes) is a cylinder of gas seen almost end-on, produced by a dying star shedding its outer layers.
![An beautifully colored ring of gas and dust. The ring is slightly elongated/egg-shaped. The center of the ring is blue with two stars visible inside of it (one directly in the center). Beyond the blue center are rings of color. First is green, then yellow, orange, and red.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-ringnebula-1999-stsci-01evvfqsn9vs4r6nbd4t4x6j5g.jpg?w=4096&format=jpeg)
2000
May 3, 2000 – Universe’s missing hydrogen found
Astronomers announced that they had used Hubble to discover “missing” hydrogen that was created during the big bang but seemed to have disappeared afterward. By studying the light of quasars passing through intervening clouds of gas on its way to Earth, they found that invisible filaments of hydrogen weave their way between galaxies throughout the universe.
![In this illustration, the upper-left corner holds a bright-white quasar. The lower-left corner holds an illustration of Earth's limb with Hubble orbiting above it. Between the quasar an Hubble are strands of reddish gas and dust](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-quasar-missingmatter-stsci-01evvp63tbvdsbhanzvbk0p6a5.jpg?w=4096&format=jpeg)
2001
April 26, 2001 – First direct visual evidence of planet growth released
Astronomers released pictures from Hubble that provided the first direct visual evidence of planetary “building blocks” within dusty disks around young stars. The “protoplanetary disks” are located in the Orion Nebula approximately 1,500 light-years from Earth.
![Four images of planetary disks in Orion. Upper-left looks like an upside down raindrop that is reddish with bright blobs of bright-green within. Upper-right is a pink, gaseous blob with a bright yellow spot within. Lower-left is a bright-yellow crescent with a dark core against a blue background. Lower-right image is a bright-yellow crescent with a long tail and a bright-white core against a black background.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-orion-proplyds-stsci-01evt9mskpmhfazzse9hx6qn7y.jpg?w=4096&format=jpeg)
November 27, 2001 – First exoplanet atmosphere directly detected
Astronomers announced that Hubble had made the first direct measurement of an exoplanet’s atmosphere. Hubble detected sodium in the atmosphere of a planet orbiting a Sun-like star 150 light-years away called HD 209458.
![A exoplanet and its yellow-white star. The planet is bottom-center of the image. It is striped with light and dark clouds. The star is above and to the right of the planet.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-expolanet-atm-illustration-stsci-01evss0xqvsnz2wnx2jrg8n8dd.png?w=4096&format=png)
2002
September 19, 2002 - Crab pulsar dynamics observed
Astronomers release Hubble observations taken in conjunction with NASA’s Chandra X-ray Observatory showing shocks and other dynamic features produced by matter and antimatter propelled to near the speed of light by the Crab pulsar. The pulsar is a rapidly rotating neutron star the size of Manhattan at the heart of the Crab Nebula.
2003
March 12, 2003 – Evaporating planet discovered
Hubble astronomers announced that they had observed, for the first time ever, the atmosphere of an exoplanet evaporating into space. The evaporating planet, called HD 209458b, is a “hot Jupiter,” a type of giant gaseous planet that orbits very closely around its parent star. Hubble’s observations reveal a hot, hydrogen-based atmosphere evaporating like a comet tail trailing behind the planet.
![An artist's conception of HD 209458 b, an exoplanet whose atmosphere is being torn off at more than 35,000 km/hour by the radiation of its close-by parent star. This hot Jupiter was the first alien world discovered via the transit method, and the first planet to have its atmosphere studied. Image credit: NASA/European Space Agency/Alfred Vidal-Madjar (Institut d'Astrophysique de Paris, CNRS)](https://science.nasa.gov/wp-content/uploads/2023/09/Osiriscopy.jpg?w=4096&format=jpeg)
March 26, 2003 – Light echo recorded
Astronomers released Hubble images of a “light echo” around a star called V838 Monocerotis, which in January 2002 had suddenly swelled in brightness, giving off 600,000 times more light than our Sun does. Hubble’s images showed light from this outburst illuminating clouds of dust around the star as the light traveled outward.
2004
March 9, 2004 – Hubble Ultra Deep Field released
The Hubble Ultra Deep Field observation was released, showing 10,000 galaxies in a tiny section of the sky. Made from a series of exposures that add up to a million seconds of observation time, the image was the deepest portrait of the universe yet taken and revealed some of the first galaxies dating back to the period shortly after the big bang.
![10,000 galaxies in a single image, appearing as small swirls and dots of light.](https://science.nasa.gov/wp-content/uploads/2023/07/10_000_galaxies_in_a_single_image__appearing_as_small_swirls_and_dots_of_light.jpeg?w=4096&format=jpeg)
2005
July 4, 2005 – Deep Impact collided with a comet
NASA’s Deep Impact spacecraft released a 820-pound projectile targeted at the comet 9P/Tempel 1. Hubble observations of the impact, released later that day, showed visible-light images of the comet before and after impact.
October 31, 2005 – Two small moons of Pluto discovered
Astronomers released discovery images from Hubble showing two previously unseen moons orbiting the dwarf planet Pluto. The discovery of the small moons provided insight into the nature and evolution of the Pluto system and early Kuiper Belt, a region of icy and rocky bodies beyond Neptune. Hubble would go on to discover a total of four moons around Pluto.
![Two images: Left May 15, 2005. A white circle at image center is Pluto. Charon is below Pluto and aqua in color color. The two dots to the upper right of Pluto are the suspected moons. Right: May 19, 2005. Charon is now above Pluto. The two suspected moons have also moved above Pluto.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-pluto-p1p2-stsci-01evvmgb4e31ygqqe1bqjmav5s.jpg?w=4096&format=jpeg)
December 22, 2005 – Moons and rings around Uranus discovered
Hubble observations of the planet Uranus were released revealing two never-before-seen, giant, dusty rings around the planet as well as two previously unknown moons, named Mab and Cupid. Hubble also showed that the orbits of Uranus’ inner moons had changed significantly over the previous decade.
![Newly Discovered Moons and Rings of Uranus (Annotated). Two images of Uranus on its side, with its rings and planets orbits shown vertically. Uranus is an aqua sphere with white areas near the poles.](https://science.nasa.gov/wp-content/uploads/2023/07/web_print.jpg?w=4096&format=jpeg)
2006
APRIL 18, 2006 – APRIL 20, 2006 – BREAKUP OF COMET WITNESSED
Hubble observed the disintegration of comet 73P/Schwassmann-Wachmann 3 as it approached the Sun. The observations provided a new opportunity to study the breakup of a comet nucleus.
August 21, 2006 – Direct proof of dark matter observed
Astronomers using Hubble, NASA’s Chandra X-ray Observatory and ground-based telescopes released direct proof of dark matter in the galaxy cluster 1E 0657-56, also known as the Bullet Cluster.
![Galaxies fill the scene against a black background. An oval, translucent blob of bright-pink at image center that is edged with purple blobs on either side of the pink.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-chandra-bulletcluster-stsci-01evvebdtedwkk5j4k58a3j734.jpg?w=4096&format=jpeg)
2007
October 29 – November 4, 2007 - Mystery comet observed
Hubble observed the bright core of comet 17P/Holmes, which mysteriously brightened by nearly a millionfold over a 24-hour period in late October. Hubble’s observations uncovered details as small as 33 miles (54 kilometers) across, revealed spurs of dust emanating from the comet’s nucleus, and showed the cloud of dust encircling the comet (called the coma) disperse and fade over several days.
December 11, 2007 – Hazy extrasolar atmosphere discovered
Astronomers announce that, for the first time, Hubble had detected strong evidence of hazes in the atmosphere of a planet orbiting a distant star. When the planet, called HD 189733b, passed in front of its parent star, Hubble was able to take spectral “fingerprints” of the planet’s atmosphere.
![](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-exoplanet-hd-189733b-stsci-01evt6r6fkvpfw6xs17wv8jrm8.jpg?w=4096&format=jpeg)
2008
March 19, 2008 – First organic molecule detected on an exoplanet
Hubble astronomers announced their discovery of methane in the atmosphere of an exoplanet. Found on a Jupiter-sized planet named HD 189733b, this was the first organic molecule identified in the atmosphere of a planet orbiting a star other than the Sun.
![Illustration: Bright orange-yellow star off of the page to the left. A small world orbits it. Hubble is on the right side, opposite the star and planet, pointing toward them. The bottom of the illustration holds a graph of](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-planet-189733b-stsci-01evt6fqr9xjxn3pb65r8p4vcm.jpg?w=4096&format=jpeg)
November 13, 2008 – Visible-light images of an exoplanet released
Astronomers released what might be the first-ever visible-light images of an extrasolar planet. Taken by Hubble, the images showed a planet moving in its orbit around the star Fomalhaut, located 25 light-years from Earth.
![Hubble observations of Fomalhaut](https://science.nasa.gov/wp-content/uploads/2023/04/fomalhaut-system-jpg.webp?w=4096&format=png)
2010
February 25–28, 2010 – Large asteroid Vesta observed
Hubble captured images of the large asteroid Vesta as part of preparations for the Dawn spacecraft’s rendezvous with the asteroid in July 2011. Vesta is the second largest object that resides in the asteroid belt between Mars and Jupiter. Hubble’s observations revealed features on the asteroid and showed that Vesta’s pole was tilted about four degrees more to the asteroid’s east than previously thought, meaning seasons would change later on Vesta than expected.
August 19, 2010 – Cosmic lens used for the first time to probe dark energy
Astronomers using Hubble announced that they had devised a new method of measuring dark energy, a mysterious force that pushes our universe apart at increasing speeds. Hubble observed Abell 1689, a massive cluster of galaxies that acts like a giant magnifying lens in space. By measuring how the light of galaxies located behind Abell 1689 was bent by the cluster’s gravity, astronomers could investigate the effect dark energy had on the geometry of space along the light’s path.
![A cluster of galaxies fills the frame. A purple glow around the largest concentrations of galaxies indicates the distribution of dark matter.](https://science.nasa.gov/wp-content/uploads/2021/12/hubble-abell1689-darkmatter-heic1014a-jpg.webp?w=4096&format=png)
2011
October 4, 2011 – Nobel Prize awarded for discovery of accelerating universe
Hubble science team member Adam Riess and fellow astronomers won the Nobel Prize in Physics from the Royal Swedish Academy of Sciences for discovering that the expansion of the universe is accelerating. The astronomers used Hubble data, as well as data from several ground-based telescopes.
![A circular, gold Nobel Prize Medal sits against a black background.](https://science.nasa.gov/wp-content/uploads/2021/12/hubble-nobelmedalimage.png?w=4096&format=png)
December 6, 2011 – 10,000th Hubble science paper published
The 10,000th science paper using Hubble data was published, solidifying Hubble’s position as one of the most prolific astronomical endeavors in history.
![An illustration that holds a graph showing the growth of Hubble's scientific publications. The graph is color coded by publication type. Across the top of the image are covers of some of the scientific journals along with cover pages of some of the published papers.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-10000-sciencepapers-stsci-01evvhj41p8rqn2803qpwcd48m.jpg?w=4096&format=jpeg)
2012
May 31, 2012 –Milky Way–Andromeda collision determined to be head-on
Astronomers announced that our Milky Way galaxy is destined for a head-on collision with the Andromeda galaxy in about 4 billion years. The Andromeda galaxy is currently 2.5 million light-years away but is falling toward the Milky Way under the mutual pull of gravity between the two galaxies.
July 11, 2012 - Fifth Pluto moon discovered
Astronomers using Hubble announced their discovery of a fifth moon orbiting the dwarf planet Pluto. Estimated to be irregular in shape and just 6 to 15 miles across, the newfound moon orbits in the same plane as the other satellites in the system. Hubble discovered four of the five known moons of Pluto in preparation for the New Horizons spacecraft’s flyby in 2015.
![Pluto and its largest moon, Charon, are at image center appearing as a large and small white dot. Hydra, Nix, and P4 (a very small white dot that has a green circle around it) are to the left of Pluto and Charon. P4 is to the right of Pluto and Charon.](https://science.nasa.gov/wp-content/uploads/2023/07/Hubble_Discovers_a_Fifth_Moon_Orbiting_Pluto-1.jpeg?w=4096&format=jpeg)
September 25, 2012 – Hubble eXtreme Deep Field released
The deepest view of the universe yet captured, the eXtreme Deep Field, was released. The photo was created by combining 10 years of Hubble photographs taken of a patch of sky at the center of the Hubble Ultra Deep Field. The faintest galaxies in the image are one ten-billionth the brightness of what the human eye is capable of seeing.
![The field of view is filled with galaxies in all shapes and sizes. Colors range from red to blue and those in between.](https://science.nasa.gov/wp-content/uploads/2023/04/xlarge_web_0-jpg.webp?w=4096&format=png)
2013
April 19, 2013 – Horsehead Nebula infrared image released
An infrared image of the Horsehead Nebula from Hubble was released to celebrate the telescope’s 23rd anniversary in space. The nebula is a small part of the vast star-forming complex in the constellation Orion and is expected to disintegrate in about 5 million years.
![Looking like an apparition rising from whitecaps of interstellar foam, the iconic Horsehead Nebula is shown in infrared light as imaged by the Hubble Space Telescope. The heart of the nebula appears in red like a capital letter T with wilted edges. Wrapped around this heart are white, gray, and transparent-looking clouds of material. All on a start-studded background.](https://science.nasa.gov/wp-content/uploads/2023/09/Horsehead.jpeg?w=4096&format=jpeg)
November 7, 2013 – Asteroid found to have comet-like tails
Astronomers released Hubble images of a unique, never-before-seen type of object: an asteroid that sprouted six comet-like tails.
![Left: Bright, blue-white asteroid at top with a tail extending toward the center bottom. Right: Bright, blue-white asteroid at top with a fainter tail extending to the center-left.](https://science.nasa.gov/wp-content/uploads/2023/04/prc13-52a-jpg.webp?w=4096&format=png)
December 12, 2013 – Water vapor plumes observed on Europa
Astronomers announced that Hubble had observed water vapor plumes rising above the frigid south polar region of Jupiter’s moon Europa. The observations provided the first strong evidence of water plumes erupting off the moon’s surface.
![A beige, icy world scarred by dark lines. Blue area extending into space from the lower-left quadrant of the Europa.](https://science.nasa.gov/wp-content/uploads/2023/04/watervapordata-full_0-jpg.webp?w=4096&format=png)
2014
January 7, 2014 – First Frontier Field image released
The first of Hubble’s Frontier Fields images was released, featuring the galaxy cluster Abell 2744. The Frontier Fields multi-year program obtained super-deep views of the universe using long exposures from Hubble. This image of Abell 2744 was the deepest-ever picture taken of a cluster of galaxies and revealed some of the faintest and youngest galaxies yet detected.
![Deep field image of galaxies in space](https://science.nasa.gov/wp-content/uploads/2023/04/pia17569_0-jpg.webp?w=4096&format=png)
March 6, 2014 – Disintegrating asteroid imaged
Hubble observations were released showing the never-before-seen breakup of an asteroid. A series of Hubble images taken over months revealed that the asteroid, called P/2013 R3, had broken into as many as 10 smaller pieces and was continuing to break apart. The images also showed that the fragments were drifting away from each other at a mere one mile per hour, suggesting that a collision was unlikely to be the cause of the breakup.
May 15, 2014 – Great Red Spot found to be shrinking
Scientists released Hubble images showing that Jupiter’s Great Red Spot is smaller than ever seen before, signifying that the giant storm is shrinking. Hubble’s observations also revealed that the spot is changing shape from an oval to a circle.
![An image of Jupiter, with three inset images showing its Great Red Spot growing smaller between 1995 and 2014.](https://science.nasa.gov/wp-content/uploads/2023/04/14-135-jupiter2-jpg.webp?w=4096&format=png)
June 3, 2014 – Hubble Ultra Deep Field updated
Hubble premiered a comprehensive picture of the evolving universe, adding ultraviolet observations to the previously released Hubble Ultra Deep Field. The addition of ultraviolet light provided a missing link in the history of star formation and updated the deep field to cover the entire range of light that Hubble can observe.
![A myriad of colorful galaxies, in all shapes, sizes, and forms, dot the image.](https://science.nasa.gov/wp-content/uploads/2023/04/hubble_ultradeepfield_0-jpg.webp?w=4096&format=png)
2015
January 5, 2015 – Hubble revisited iconic “Pillars of Creation”
New Hubble images of the iconic Pillars of Creation in the Eagle Nebula were released to the public. Hubble made its first observations of these star-forming pillars in 1995. The newest images provided a more detailed visible-light view of the pillars and presented an infrared view, which revealed stars hidden within and behind the towers of gas and dust.
![Three pillars of gas and dust rise from the bottom of the image. They are rusty-brown and black with golden highlights. A bright, hazy background of varying shades of blue and turquoise helps silhouette the darker pillars. Bright stars dot the background.](https://science.nasa.gov/wp-content/uploads/2023/04/hubble-explore-light-eagle-nebula-visible-2-jpg.webp?w=4096&format=png)
January 5, 2015 – Panoramic view of Andromeda galaxy released
Astronomers presented the largest Hubble image to date, featuring a sweeping view of a portion of the Andromeda galaxy. Assembled into a mosaic using 7,398 Hubble exposures, the image includes over 100 million stars and thousands of star clusters within the galaxy’s disk.
![This sweeping bird's-eye view of a portion of the Andromeda galaxy (M31) shows stars, lanes of dark dust and bright core. The central region is on the left.](https://science.nasa.gov/wp-content/uploads/2023/04/hs-2015-02-a-hires_jpg-jpg.webp?w=4096&format=png)
December 16, 2015 – First-ever predicted supernova captured
Hubble images were released capturing light from the first-ever predicted supernova explosion. Astronomers predicted the supernova’s appearance by studying how a galaxy cluster’s immense gravity was bending and magnifying the light from the supernova (which exploded in a galaxy behind the cluster), causing it to appear in different locations at different times.
![The field is filled with galaxies. One galaxy in particular is gravitationally lensed (circled in red) at least three times.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-refsdal-ann1526a.jpg?w=4096&format=jpeg)
2016
March 3, 2016 – Cosmic distance record broken
Astronomers using Hubble announced that they had shattered the cosmic distance record by measuring the farthest galaxy ever seen in the universe at that time. The bright, infant galaxy, named GN-z11, was seen as it was 13.4 billion years in the past, just 400 million years after the big bang.
![An image of space with thousands of galaxies with an insert that is blown up of the farthest galaxy ever detected.](https://science.nasa.gov/wp-content/uploads/2023/05/stsci-01evvh3g9wqsan3p38ww2dj7d1.jpg?w=4096&format=jpeg)
April 26, 2016 – Hubble discovered moon of dwarf planet Makemake
Scientists announced that they had used Hubble to discover a small, dark moon orbiting Makemake, the second brightest icy dwarf planet in the Kuiper Belt (after Pluto). The observations showed that the moon, nicknamed MK 2, orbits approximately 13,000 miles from Makemake. The moon’s discovery provided valuable information on the dwarf planet system, such as the mass for the system and insight into its evolution.
![Hubble's view of Makemake. Bright-white Pluto is at the center of the image. An arrow points to a small white dot just above the planet.](https://science.nasa.gov/wp-content/uploads/2023/04/image1-_p1618aw-jpg.webp?w=4096&format=png)
2017
February 22, 2017 – Hubble studied atmospheres of Earth-sized exoplanets
Astronomers announced that they had discovered seven Earth-sized planets orbiting a star called TRAPPIST-1 using the Spitzer Space Telescope and that Hubble had examined the atmospheres of four of the planets, including the three planets that resided in the star’s habitable zone. Hubble’s observations found no evidence for puffy, hydrogen-rich atmospheres around the two innermost planets, suggesting that those planets are rocky.
![Illustration of the TRAPPIST-1 system](https://science.nasa.gov/wp-content/uploads/2023/09/Hubblevideo_thumb.jpg?w=4096&format=jpeg)
October 16, 2017 – Hubble observed source of gravitational waves
Scientists presented Hubble images showing light from a source of gravitational waves. The gravitational waves were produced when two neutron stars merged in the galaxy NGC 4993, located about 130 million light-years from Earth. Hubble, along with many other space and ground-based telescopes, observed the resulting “kilonova” after the gravitational waves were detected. It was the first time light from a source of gravitational waves had ever been detected.
![kilonova associated with GW170817 (box) was observed by NASA's Hubble Space Telescope and Chandra X-ray Observatory](https://science.nasa.gov/wp-content/uploads/2023/04/hubble_chandra_500.gif?w=4096&format=png)
2018
April 2, 2018 – Hubble revealed farthest star ever seen
Astronomers released Hubble images of the farthest star ever seen, nicknamed Icarus. The enormous blue star resides in a very distant spiral galaxy and is so far away that its light has taken 9 billion years to reach Earth. Hubble was able to spot Icarus because the star’s light was magnified by an intervening cluster of galaxies in a phenomenon called gravitational lensing.
![image of stars and galaxies with two insets](https://science.nasa.gov/wp-content/uploads/2023/04/farthest-star-jpg.webp?w=4096&format=png)
June 27, 2018 – First known interstellar object studied
Results from Hubble observations of ‘Oumuamua, the first known interstellar object to pass through our solar system, were announced. Hubble, along with other space and ground-based telescopes, measured the object’s trajectory and found that it gained an unexpected boost of speed. A possible explanation is that ‘Oumuamua expelled gaseous material like a comet, which influenced its path.
![This illustration shows ‘Oumuamua racing toward the outskirts of our solar system.](https://science.nasa.gov/wp-content/uploads/2023/04/18-056main.png?w=4096&format=png)
October 3, 2018 – Possible exomoon found
Astronomers announced that the Kepler and Hubble space telescopes had gathered evidence of a possible moon orbiting a planet outside our solar system. Potentially as large as Neptune, the suspected “exomoon” accompanies a planet several times more massive than Jupiter called Kepler-1625b, which orbits a Sun-like star 8,000 light-years from Earth.
![artist concept: A distant star off to the upper left. A large banded world is in the foreground. In front of it is a smaller, blue world.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-kepler-1625-stsci-01evszn586ag8rng4qmr23nqd0.jpg?w=4096&format=jpeg)
2019
May 2, 2019 – Hubble released its largest deep-field image yet
Astronomers unveiled the Legacy Deep Field, the largest portrait of the distant universe ever assembled with the Hubble Space Telescope. Covering an area of sky almost as wide as that spanned by the Full Moon, the image combines 7,500 separate Hubble exposures taken over 16 years and contains roughly 265,000 galaxies stretching across 13.3 billion years of cosmic history.
![portion of the Hubble Legacy Field, one of the widest views of the universe ever made](https://science.nasa.gov/wp-content/uploads/2023/04/stsci-h-p1917b-q-5198x4801-1-jpg.webp?w=4096&format=png)
September 13, 2019 – Water vapor detected on habitable-zone exoplanet
Astronomers presented the first detection of water vapor in the atmosphere of an exoplanet orbiting within its star’s “habitable zone” (where temperatures are just right for liquid water to exist on a planet’s surface). Hubble detected water vapor in the atmosphere of a planet called K2-18b, which orbits a small red dwarf star about 110 light-years away.
![Artist's image of planet K2-18b with a companion planet and host star.](https://science.nasa.gov/wp-content/uploads/2023/09/K2-18b_1280.jpeg?w=4096&format=jpeg)
2020
April 20, 2020 – Hubble studied composition of interstellar comet
After using Hubble to track and study Comet Borisov, the first known interstellar comet to pass through our solar system, scientists revealed Hubble’s finding that the comet possesses an abundance of carbon monoxide. This unusual composition suggests the comet might have formed in a carbon-rich disk around a cool, red dwarf star.
![bluish comet trailing dust and gas as it travels through space.](https://science.nasa.gov/wp-content/uploads/2023/07/borisov.jpg?w=4096&format=jpeg)
2021
April 29, 2021 – Growing Exo-Planet Imaged
Hubble viewed a still-forming, Jupiter-sized planet feeding off material surrounding a young star. The result was one of only 15 exo-planets imaged to date, the first in ultraviolet light.
![Blue background. Center of image is a disk blocking the light of a star. Below and just to the left of the disk, at about seven o'clock, is a bright white point. This is PDS 70b.](https://science.nasa.gov/wp-content/uploads/2021/12/hubble-pds70b-stsci-h-p2121c-f-1280x1280-1-jpg.webp?w=4096&format=png)
June 28, 2021 – Theoretical Electron-Capture Supernova Discovered
Astronomers found convincing evidence for a type of exploding star that may explain the bright supernova that birthed the Crab Nebula.
![A bright galaxy seen from the side, a dark dust lane cuts through the middle. A bright point is below and to the right of the galaxy.](https://science.nasa.gov/wp-content/uploads/2023/04/hubble_ngc2146-750px-jpg.webp?w=4096&format=png)
2022
March 30, 2022 – Hubble Breaks Its Own Record
Hubble detected the light of a star that existed within the first billion years after the big bang. The star is so far away that its light has taken 12.9 billion years to reach Earth, surpassing the previous record by nearly 4 billion years.
![background galaxies, a faint, red arc holds 3 bright dots, the center one is Earendel](https://science.nasa.gov/wp-content/uploads/2023/04/hubble_earendel_annotated.png?w=4096&format=png)
April 12, 2022 – Largest Comet Nucleus
Hubble determined the size of the largest comet nucleus ever seen. With an estimated diameter of 80 miles, it’s about 50 times larger than most known comet nuclei. Its estimated mass is a staggering 500 trillion tons, a hundred thousand times greater than the mass of a typical comet found much closer to the Sun.
![Bright blue-white comet image](https://science.nasa.gov/wp-content/uploads/2023/04/hubble_comet_c_2014_un271.png?w=4096&format=png)
May 5, 2022 – Hubble Found a Companion Star That Survived in the Aftermath of a Supernova
Hubble uncovered a companion star previously hidden in the glare of its partner's supernova.
![Artwork: Bright, blue-white supernova star at upper left fills most of the scene. Irradiated white planet at lower right](https://science.nasa.gov/wp-content/uploads/2023/04/hubble_sn2013ge_illustration.png?w=4096&format=png)
September 29, 2022 – March 1, 2023
Hubble Captures Detailed Views of DART Impact
Hubble had a front row seat to a first of its kind NASA test for defending Earth against potential asteroid or comet hazards.
![Small white dot left of center. An irregularly-shaped blue haze surrounds it. A long blue tail trails off to the right.](https://science.nasa.gov/wp-content/uploads/2023/06/hubble-dart-stsci-01gse086aak095ewfdx68p1he3.png?w=4096&format=png)
January 12, 2023 – Black Hole Twisting a Captured Star Into a Donut Shape
Astronomers recorded a star's final moments as it was gobbled up by a black hole.
![1) upper left: yellow-white star at left of frame, black hole at center right 2) upper right: stream of star gas swirls around and into a black hole 3) lower left: rusty-orange disk forms around a black hole 4) lower right: disk is enlarged, star is gone](https://science.nasa.gov/wp-content/uploads/2023/04/hubble_tde_stsci-01gnygb4y8pgspy39rzd82ey3q.png?w=4096&format=png)
November 16, 2023 – Size of Nearest Transiting Earth-Sized Planet Measured
Hubble observations showed that the planet is 1.07 times Earth's diameter. This means the planet is a rocky world, like Earth, with approximately the same surface gravity.
![The disk of a bright reddish-orange-white star is just above and to the right of image center. A small black world is passing in front of the star. A closer planet is in the lower-left corner. We see it as an illuminated crescent facing the star. Two reddish-orange stars are off to the right of the central star. All on a black background dotted with more distant stars.](https://science.nasa.gov/wp-content/uploads/2023/11/hubble-transitingearthsizedplanet-stsci-01he0a43v0d535x1zmc4kakg2r.png?w=4096&format=png)