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\t\t\t\t\t\t23\/04\/2025<\/span> In celebration of the NASA\/ESA Hubble Space Telescope\u2019s 35 years in Earth orbit, an assortment of images that were recently taken by Hubble has been released today. This stretches from the planet Mars to images of stellar birth and death, and a magnificent neighbouring galaxy. After over three decades of scrutinising our Universe, Hubble remains a household word as the most well-recognised telescope in scientific history.<\/p>\n<\/div>\n Astronomers knew that placing a telescope above Earth\u2019s blurry atmosphere would allow them to see the Universe like never before. Hubble\u2019s view would be ten times sharper than conventional ground-based telescopes of the time. Its high sensitivity would uncover objects more than one-billionth the brightness of the faintest stars seen by the human eye. Unfiltered by Earth’s atmosphere, its broad wavelength coverage would stretch from ultraviolet to near-infrared light. Glorious celestial wonders would come into focus. Moreover, Hubble would be an audacious leap forward in human imagination, engineering prowess and boundless curiosity.<\/p>\n Before Hubble, no generation ever had access to unimaginably vibrant views of space, stretching almost all the way back to almost the beginning of time. For most of history, the complexity and extent of the vast cosmos was left largely to human imagination. But Hubble entered the final sprint in the race to the edge of the visible Universe. In the early 1920s, the telescope\u2019s namesake, astronomer Edwin Hubble, started this marathon with the discovery of galaxies outside of our Milky Way.<\/p>\n<\/p><\/div>\n Hubble today is at the peak of its scientific return thanks to the dedication, perseverance and skills of engineers, scientists and mission operators. Astronaut shuttle crews chased and rendezvoused with Hubble on five servicing missions from 1993 to 2009. The astronauts, including ESA astronauts on two of the servicing missions, upgraded Hubble’s cameras, computers and other support systems.<\/p>\n By extending Hubble\u2019s operational life the telescope has made nearly 1.7 million observations, looking at approximately 55\u00a0000 astronomical targets. Hubble discoveries have resulted in over 22\u00a0000 papers and over 1.3 million citations as of February 2025. All the data collected by Hubble is archived and currently adds up to over 400 terabytes. The demand for observing time remains very high with 6:1 oversubscriptions, making it one of the most in-demand observatories today.<\/p>\n Hubble\u2019s long operational life has allowed astronomers to see astronomical changes spanning over three decades: seasonal variability on the planets in our Solar System, black hole jets travelling at nearly the speed of light, stellar convulsions, asteroid collisions, expanding supernova bubbles and much more.<\/p>\n<\/p><\/div>\n Hubble\u2019s legacy is the bridge between our past and future knowledge of a Universe that is unbelievably glorious, as well as rambunctious\u00a0\u2013 with colliding galaxies, voracious black holes and relentless stellar fireworks. Hubble, more than any other telescope, sees the Universe through the eyes of Einstein: microlensing, time dilation, the cosmological constant, matter disappearing into a black hole and a source of gravitational waves.<\/p>\n Before 1990, powerful optical telescopes on Earth could see only halfway across the cosmos. Estimates for the age of the Universe disagreed by a big margin. Supermassive black holes were only suspected to be the powerhouses behind a rare ‘zoo’ of energetic phenomena. Not a single planet had been seen around another star.<\/p>\n Among its long list of breakthroughs: Hubble\u2019s deep fields unveiled myriad galaxies dating back to the early Universe; precisely measured the Universe\u2019s expansion; found that supermassive black holes are common among galaxies; made the first measurement of the atmospheres of extrasolar planets; contributed to discovering ‘dark energy’, which is accelerating the Universe.<\/p>\n After three decades, Hubble remains a household word as the most well-recognised and celebrated scientific instrument in human history. Hubble\u2019s discoveries and images have been nothing less than transformative for the public\u2019s perception of the cosmos. Unlike any other telescope before it, Hubble has made astronomy very relevant, engaging and accessible for people of all ages. Hubble became ‘the people\u2019s telescope,’ touching the minds as well as the emotions of hundreds of millions of humans around the globe.<\/p>\n A single Hubble snapshot can portray the Universe as awesome, mysterious and beautiful \u2013\u00a0and at the same time chaotic, overwhelming and foreboding. These pictures have become iconic, seminal and timeless. They viscerally communicate the value of science: the awe and drive to seek understanding of our place in the cosmos. In commemoration, NASA and ESA released images today of five astronomical targets that were selected for the celebration, ranging from planets to nebulae to galaxies.<\/p>\n The relentless pace of Hubble\u2019s trailblazing discoveries kicked-started a new generation of space telescopes for the 21st century. The powerful\u00a0James Webb Space Telescope\u00a0may not have been built without Hubble revealing an ‘undiscovered country’ of far-flung, seemingly countless galaxies. Hubble provided the first observational evidence that there was a lot for Webb to pursue in infrared wavelengths that reach even greater distances beyond Hubble\u2019s gaze. Now, Hubble and Webb are often being used in complement to study everything from exoplanets to galaxy dynamics.<\/p>\n<\/p><\/div>\n An assortment of compelling images have been released today that were recently taken by Hubble:<\/p>\n Mars: These are a combination of Hubble Space Telescope images of Mars taken from 28-30 December 2024. At the midpoint of the observations, Mars was approximately 98 million km from Earth. Thin water-ice clouds that are apparent in ultraviolet light give the ‘Red Planet’ a frosty appearance. The icy northern polar cap was experiencing the start of martian spring.<\/p>\n<\/p><\/div>\n Planetary nebula NGC 2899: This object has a diagonal, bipolar, cylindrical outflow of gas. This is propelled by radiation and stellar winds from a white dwarf at the centre with a temperature of nearly 22 000 degrees Celsius. In fact, there may be two companion stars that are interacting and sculpting the nebula, which is pinched in the middle by a fragmented ring or torus \u2013 looking like a half-eaten doughnut. It has a forest of gaseous ‘pillars’ that point back to the source of radiation and stellar winds. The colours are from glowing hydrogen and oxygen. The nebula lies approximately 4500 light-years away in the southern constellation Vela.<\/p>\n<\/p><\/div>\n Rosette Nebula: This is a Hubble Space Telescope photo of a small portion of the Rosette Nebula, a huge star-forming region spanning 100 light-years across and located 5200 light-years away. Hubble zooms into a small portion of the nebula that is only four light-years across (the approximate distance between our Sun and the neighbouring Alpha Centauri star system.) Dark clouds of hydrogen gas laced with dust are silhouetted across the image. The clouds are being eroded and shaped by the seething radiation from the cluster of larger stars in the centre of the nebula (NGC 2440). An embedded star seen at the tip of a dark cloud in the upper right portion of the image is launching jets of plasma that are crashing into the cold cloud around it. The resulting shock wave is causing a red glow. The colours come from the presence of hydrogen, oxygen and nitrogen.<\/p>\n<\/p><\/div>\n Barred Spiral Galaxy NGC 5335: This object is categorised as a flocculent spiral galaxy with patchy streamers of star formation across its disk. There is a striking lack of well-defined spiral arms that are commonly found among galaxies, including our Milky Way. A notable bar structure slices across the centre of the galaxy. The bar channels gas inwards toward the galactic centre, fuelling star formation. Such bars are dynamic in galaxies and may come and go over two-billion-year intervals. They appear in about 30 percent of observed galaxies, including our Milky Way.<\/p>\n<\/p><\/div>\n \nEven at the impressive age of 35, there has been no slowdown in the research and new discoveries made using Hubble\u00a0\u2013 if anything, the opposite. Astronomers from Europe make intensive use of the telescope, with the share of observing time awarded to European-led programmes being consistently above the 15% guaranteed by ESA\u2019s participation in the Hubble mission thanks to their many proposals with strong scientific merit. Benefiting from Hubble\u2019s long operational life, the OPAL programme celebrated a decade\u00a0studying the Solar System\u2019s outer planets. Discoveries such as evidence for water vapour on Jupiter\u2019s moons\u00a0Europa\u00a0and\u00a0Ganymede, ‘spokes’ in\u00a0Saturn\u2019s rings, the size of Jupiter\u2019s\u00a0Great Red Spot and the colours of\u00a0Uranus and Neptune\u00a0are just some that have resulted. Smaller Solar System bodies got attention from Hubble as well \u2013\u00a0not least the asteroid Dimorphos, target of the DART asteroid redirection test. Hubble took images of Dimorphos before and after the impact\u00a0alongside Webb, later producing a\u00a0movie of the debris\u00a0and spotting\u00a0ejected boulders. A citizen science project also discovered\u00a0thousands of asteroid trails\u00a0in over two decades of archived Hubble snapshots.<\/p>\n Beyond the Solar System, Hubble proved its continued importance in the rapidly growing field of research into exoplanets. It studied\u00a0weather patterns\u00a0in an exoplanet\u2019s atmosphere, saw a\u00a0new atmosphere\u00a0being formed around a rocky exoplanet similar to Earth, and found a small exoplanet with\u00a0water vapour in its atmosphere. Also completed in 2021 was a\u00a0compilation of supernova host galaxies\u00a0from 18 years of study, images that were used to measure the Hubble constant to its highest accuracy yet. This year too brought the culmination of the\u00a0largest ever photomosaic of the Andromeda Galaxy, created from ten years of Hubble observations of our near neighbour.<\/p>\n \u00a0<\/p>\n \nMore information<\/b> Release on esahubble.org<\/p>\n \nContact:<\/b>
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\n\t\t\t\t\t\t\t\t<\/figcaption><\/figure>\nA lasting legacy <\/h2>\n
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Hubble\u2019s science and discoveries in recent years<\/h2>\n
This has led directly to discoveries including evidence for an\u00a0intermediate-mass black hole\u00a0in Omega Centauri, a precursor to\u00a0the earliest supermassive black holes, a\u00a0bizarre explosion\u00a0of extraordinarily bright light originating far from any host galaxy,\u00a0hydrogen burning\u00a0in white dwarf stars, and the absence of\u00a0Population III stars\u00a0as far back in time as Hubble can see. A particular highlight, and a demonstration of Hubble\u2019s incredible capabilities, was the discovery in 2022 of\u00a0Earendel. The most distant single star ever seen, Earendel is viewed 12.9 billion years into the past when the Universe was under a billion years old.<\/p>\n
The\u00a0Hubble Space Telescope\u00a0is a project of international cooperation between ESA and NASA.<\/p>\n
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media@esa.int<\/p>\n<\/p><\/div>\n