Hubble's Hidden Treasures — Image Processing
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Muchas, muchas gracias por sus visitas, favs y comentarios :)
Many, many thanks for your visits, favs and comments :)
Olympus & 60 mm macro.
A beautiful galactic dance 211 million light years away. Captured by Hubble WFC3 and processed by me.
A macro of a glass of coffee, for Macro Monday, on the theme of beverage.
This was my second try at it, as the first try gave me some very lukewarm image. Also had to take a photo, then leave it for a few seconds, then go back, as the lense kept fogging up!
I was originally going to leave this as colour, but popped it into silver efex after color efex, just to see and I really liked it.
Nikon Z6, 18mm Extension Tube, FTZ, Tamron 90mm Macro Lense, Ring FLash,
Exposure X5, Color Efex Pro 4, Silver Efex Pro 2
It's Dog Day Monday again! I can't believe another week has flown bye.
Meet Hubble. All I know is that he was not named after the space station or Edwin Hubble after whom the space station was named. Hubble was a loveable, happy-go-lucky Welsh Corgi that lived right around the corner from us until he and his owners moved out of the Bay Area in 2014. Every time I'd meet him, he'd "smile." Don't get the idea that every dog I'm going to show you is smiling. I'm getting into the more serious group and then, just plain old. And, you know, we get grumpy as dogs, especially the two who I'll be showing you in a few weeks that were 17 when I met them.
Anyway, Happy Dog Day Monday #19. Any day with a dog is a happy one (a gross exaggeration, but not as exaggerated as any day without a dog isn't half as great as a day with one). When you unravel that, go rescue a dog.
Cats are okay, too, but from what I've seen on You Tube (and at my nephew's home), they are usually cantankerous, shredding rugs and couches, and love to throw things off countertops. So do parrots, but at least a parrot will talk to you while you're trying to correct them. Our cockatiel used to sing all the radio commercials he'd learned from the radio while we went to school. That was 61 years ago. My favorite, "Where there's Life, there's Lucky Strikes!"
Like three years ago, starting the new season with a wonderful and enchanting Hubble's Variable Nebula (NGC 2261)
Previous approach: www.flickr.com/photos/olegbr/8552071862/in/dateposted/
I wanted to personally check whether it still variable ...
It was found that this is so :)
Here animation L-channel 200%: olegbr.astroclub.kiev.ua/files/astrofoto/NGC2261/NGC2261_...
Of course, 3 years - a very large interval for observing the changes in the nebula. Everything is much faster: www.umanitoba.ca/science/astronomy/cbrown/imaging/hvn/ana...
In 2013-2016 animation, I drew attention to the star just above the nebula, which is for 3 years significantly shifted to the right.
To heighten the effect, combined with the current picture image DSS., For about 60 years, the offset is already pretty decent. olegbr.astroclub.kiev.ua/files/astrofoto/NGC2261/NGC2261_...
Here www.astrosurf.com/mcianci/ngc2261.html Italian colleague calculated that the proper motion (proper motion) of the star 0.2" per year. The name is NLTT 16798 and is listed as High Proper Motion Star: simbad.u-strasbg.fr/simbad/sim-id?Ident=NLTT+16798
Explanation: What causes Hubble's Variable Nebula to vary? The unusual nebula pictured above changes its appearance noticeably in just a few weeks. Discovered over 200 years ago and subsequently cataloged as NGC 2661, the remarkable nebula is named for Edwin Hubble, who studied it earlier this century. Hubble's Variable Nebula is a reflection nebula made of gas and fine dust fanning out from the star R Monocerotis. The faint nebula is about one light-year across and lies about 2500 light-years away towards the constellation of Monocerotis. A leading variability explanation for Hubble's Variable Nebula holds that dense knots of opaque dust pass close to R Mon and cast moving shadows onto the reflecting dust seen in the rest of the nebula. (text:http://apod.nasa.gov/apod/ap991020.html)
This picture was photographed during 4 and 6 February 2016 in Khlepcha observatory, Ukraine.
Equipment: home assembled reflector 10 in., f/3.8
Mount WhiteSwan-180 with a control system «Eqdrive Standart», camera QSI-583wsg, Televue Paracorr-2. Off-axis guidecamera QHY5L-II.
LRGB filter set Baader Planetarium.
L = 29 * 600 seconds , bin.1, RGB = 11 * 300-450 seconds, bin.2 each filter. About 8 hours.
FWHM source in L filter 2.10"-2.97", sum in L channel - 2.55"
The height above the horizon from 40° to 48°, the scale of 1"/ pixel.
Processed Pixinsight 1.8 and Photoshop CS6
Lors du lancement du télescope spatial Hubble il y a 35 ans, personne n'aurait pu imaginer à quel point il allait transformer notre vision de l'espace. Lancé le 24 avril 1990, le télescope poursuit aujourd'hui sa mission. Pour célébrer son anniversaire, la NASA a publié quatre images récentes prises par Hubble, qui prouvent sa pérennité, même après trois décennies !
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When the launched 35 years ago, no one would have guessed how much it would shape the way we view space. Launched on April 24, 1990, the telescope continues its mission today. To celebrate its anniversary, NASA released four recent images taken by Hubble that prove its staying power even after three decades !
Credit : NASA, ESA, STScI; Image Processing: Joseph DePasquale (STScI), Alyssa Pagan (STScI)
IC1848 emission nebula located in Cassiopeia.
Processed in Hubble palette colours.
Skywatcher 100ED
Canon 700d
Celestron CGEM DX
14x180s (42 mins) ISO800
Processed in PixInsight
10328px x 6833px
Resolution ............... 0.797 arcsec/px
Rotation ................. 90.001 deg
Observation start time ... 2023-01-21 21:29:28 UTC
Observation end time ..... 2023-01-21 22:31:41 UTC
Focal distance ........... 554.90 mm
Pixel size ............... 2.15 um
Field of view ............ 2d 17' 14.8" x 1d 30' 48.1"
Image center ............. RA: 2 53 17.192 Dec: +60 26 17.38 ex: +0.053614 px ey: -0.001726 px
We are back from Portugal, a little jet-lagged (always milder going east to west than vice-versa) and none the worse for the wear. Time to upload the 1,136 images that I took. Here's a garden abstract from the archives while I get to it. :)
- Rosa's Garden of Earthly Delights, Keefer Lake, Ontario, Canada -
The Hubble Space telescope's observations of the universe have seldom produced more intriguing images than that seen in this section of bubble glass in the window of a public house.
This NASA/ESA Hubble Space Telescope image features a spiral galaxy, named UGC 10043. We don’t see the galaxy’s spiral arms because we are seeing it from the side. Located roughly 150 million light-years from Earth in the constellation Serpens, UGC 10043 is one of the somewhat rare spiral galaxies that we see edge-on.
This edge-on viewpoint makes the galaxy’s disk appear as a sharp line through space, with its prominent dust lanes forming thick bands of clouds that obscure our view of the galaxy’s glow. If we could fly above the galaxy, viewing it from the top down, we would see this dust scattered across UGC 10043, possibly outlining its spiral arms. Despite the dust’s obscuring nature, some active star-forming regions shine out from behind the dark clouds. We can also see that the galaxy’s center sports a glowing, almost egg-shaped ‘bulge’, rising far above and below the disk. All spiral galaxies have a bulge similar to this one as part of their structure. These bulges hold stars that orbit the galactic center on paths above and below the whirling disk; it’s a feature that isn’t normally obvious in pictures of galaxies. The unusually large size of this bulge compared to the galaxy’s disk is possibly due to UGC 10043 siphoning material from a nearby dwarf galaxy. This may also be why its disk appears warped, bending up at one end and down at the other.
Like most full-color Hubble images, this image is a composite, made up of several individual snapshots taken by Hubble at different times, each capturing different wavelengths of light. One notable aspect of this image is that the two sets of data that comprise this image were collected 23 years apart, in 2000 and 2023! Hubble’s longevity doesn’t just afford us the ability to produce new and better images of old targets; it also provides a long-term archive of data which only becomes more and more useful to astronomers.
@NASAHubble
Media Contact:
Claire Andreoli
NASA's Goddard Space Flight Center, Greenbelt, MD
claire.andreoli@nasa.gov
Cette photomosaïque de la galaxie d'Andromède, située à 2,5 millions d'années-lumière de la Terre, est la plus grande jamais créée à partir d'images du télescope spatial Hubble. Elle comprend plus de 600 images du télescope et a nécessité plus d'une décennie de travail. La photomosaïque comprend 200 millions d'étoiles, soit une fraction de la population d'étoiles estimée à mille milliards d'étoiles d'Andromède.
« Les régions intéressantes comprennent : (a) des amas d'étoiles bleues brillantes intégrées dans la galaxie, des galaxies d'arrière-plan vues beaucoup plus loin et un bombardement photographique par quelques étoiles brillantes au premier plan qui sont en fait à l'intérieur de notre Voie lactée ; (b) NGC 206, le nuage d'étoiles le plus visible d'Andromède ; (c) un jeune amas d'étoiles bleues nouveau-nées ; (d) la galaxie satellite M32, qui pourrait être le noyau résiduel d'une galaxie qui est entrée en collision avec Andromède ; (e) des bandes de poussière sombres à travers une myriade d'étoiles.
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This photomosaic of the Andromeda galaxy, located 2.5 million light-years from Earth, is the largest ever created using images from the Hubble Space Telescope. It features over 600 Hubble images and required over a decade to make. The composite features 200 million stars, a fraction of Andromeda’s estimated trillion-star population.
Interesting regions include: (a) Clusters of bright blue stars embedded within the galaxy, background galaxies seen much farther away, and photo-bombing by a couple bright foreground stars that are actually inside our Milky Way; (b) NGC 206 the most conspicuous star cloud in Andromeda; (c) A young cluster of blue newborn stars; (d) The satellite galaxy M32, that may be the residual core of a galaxy that once collided with Andromeda; (e) Dark dust lanes across myriad stars.
Crédit : NASA, ESA, Benjamin F. Williams (Université de Washington), Zhuo Chen (Université de Washington), L. Clifton Johnson (Northwestern) ; traitement des images : Joseph DePasquale (STScI)
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M33, the Triangulum Galaxys one of the closest large galaxies to Earth. It’s located in the constellation Triangulum at a distance of about 2.5 million light years and has a diameter of around 60,000 light years. My first RGB image, taken in a Bortle 4 area; Borrego Springs, California, while attending a star party there about a week ago.
OTA: Esprit 120mm 840 focal length f 7.0
Camera: QHY268M
Gain: 56
Filters: Optolong LRGB,
Cooling Temperature: --15 Celsius
Mount: SkyWatcher EQ6-R with QHY Polemaster alignment
Autofocus: Sesto Senso 2
Guide scope: Orion 60mm focal length 240mm f/4
Auto-guiding: ZWO ASI290MM Mini
Control: Primaluce Eagle 4S
Calibrated PixInsight
Processed in Pixinsight and Lightroom
Borrego Springs - Bortle 4 skies
R 48 x 5min
G 39 x 5min
B 43 x 5min
L 55 x 5min
Ha 4 hrs
about 19 hour integration
Hubble’s new look at Saturn on 7 September 2021 shows rapid and extreme colour changes in the bands in the planet’s northern hemisphere, where it is now early autumn. The bands have varied throughout Hubble observations in both 2019 and 2020. Hubble’s Saturn image catches the planet following the southern hemisphere’s winter, evident in the lingering blue-ish hue of the south pole.
Credits: NASA, ESA, A. Simon (Goddard Space Flight Center), and M.H. Wong (University of California, Berkeley) and the OPAL team; CC BY 4.0
The beautiful spiral galaxy visible in the center of the image is known as RX J1140.1+0307, a galaxy in the Virgo constellation imaged by the NASA/ESA Hubble Space Telescope, and it presents an interesting puzzle. At first glance, this galaxy appears to be a normal spiral galaxy, much like the Milky Way, but first appearances can be deceptive!
The Milky Way galaxy, like most large galaxies, has a supermassive black hole at its center, but some galaxies are centered on lighter, intermediate-mass black holes. RX J1140.1+0307 is such a galaxy — in fact, it is centered on one of the lowest black hole masses known in any luminous galactic core. What puzzles scientists about this particular galaxy is that the calculations don’t add up. With such a relatively low mass for the central black hole, models for the emission from the object cannot explain the observed spectrum. There must be other mechanisms at play in the interactions between the inner and outer parts of the accretion disk surrounding the black hole.
Image credit: ESA/Hubble & NASA, Acknowledgement: Judy Schmidt
Text credit: European Space Agency
La nébuleuse planétaire NGC 2899 est située à 4 500 années-lumière de la Terre et à 25 895 années-lumière du centre galactique dans la constellation australe des Voiles (Vela). Cet objet présente un flux de gaz cylindrique, bipolaire et diagonal propulsé par le rayonnement et les vents stellaires d'une naine blanche située en son centre. En réalité, deux étoiles compagnes pourraient interagir et sculpter la nébuleuse, pincée en son centre par un anneau fragmenté (tore) qui ressemble à un beignet à moitié mangé. Elle présente une forêt de "piliers" gazeux pointant vers la source du rayonnement et des vents stellaires. Ses couleurs proviennent de l'hydrogène et de l'oxygène brillants (cf. NASA, ESA, STScI ; Image Processing : Joseph DePasquale STScI).
Pour situer la nébuleuse planétaire NGC 2899 (Hubble) dans la constellation australe des Voiles (Vela) :
Dans la constellation du Poisson Volant (Volans) à 300 millions d'a.l. de la Terre, l'anneau de Lindsay-Shapley AM 0644-741 est une galaxie lenticulaire non barrée et en anneau. Elle avait autrefois un noyau jaunâtre qui était le centre d’une galaxie spirale normale. Il se serait formé par une collision avec une autre galaxie, ce qui a déclenché un effet gravitationnel et une perturbation provoquant la condensation de la poussière, ce qui l'a forcé à s'étendre et à créer un anneau. D'une taille de 150 000 a.l., il possède aujourd'hui une région de formation d'étoiles dominée par de jeunes étoiles massives, bleues et chaudes. Les régions roses le long de l'anneau sont des nuages raréfiés d'hydrogène gazeux rougeoyant et fluorescent, alors qu'il est bombardé par une forte lumière ultraviolette émise par les étoiles bleues. Il continuera à s’étendre pendant encore 300 millions d’années, après quoi il commencera à se désintégrer.
Outre les deux grandes structures galactiques proches, plusieurs galaxies très éloignées sont visibles sur l'image, principalement dans sa partie inférieure gauche. Les deux stries rougeâtres et les autres petites structures elliptiques témoignent que leur lumière a été émise bien avant celle des galaxies voisines et qu'elles sont donc bien plus éloignées de nous dans l’espace-temps (cf. site Hubble).
Pour situer l'astre dans sa constellation :
www.flickr.com/photos/7208148@N02/48950795956/in/datepost...
This pair of interacting galaxies appears in the Atlas of Peculiar Galaxies compiled by astronomer Halton Arp in 1966, giving the pair its name “Arp 86.”
The peculiarity? The small companion galaxy, NGC 7752, almost seems attached to the large spiral galaxy dominating this image, NGC 7753.
The gravitational dance between the two galaxies, which are roughly 220 million light-years from Earth, will eventually result in NGC 7752 being tossed out into intergalactic space or entirely engulfed by its much larger neighbor.
Image credit: ESA/Hubble & NASA, Dark Energy Survey, J. Dalcanton
Learn more about the observation of these galaxies here: go.nasa.gov/3jrgMHI
NASA Goddard Space Flight Center enables NASA’s mission through four scientific endeavors: Earth Science, Heliophysics, Solar System Exploration, and Astrophysics. Goddard plays a leading role in NASA’s accomplishments by contributing compelling scientific knowledge to advance the Agency’s mission.
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A 130 millions d'a.l., les bras gracieux et sinueux de la majestueuse galaxie spirale NGC 3147, d'un diamètre de 83 000 a.l., apparaissent comme un grand escalier en spirale balayant l’espace dans cette image du télescope spatial Hubble. Ce sont en fait de longues bandes de jeunes étoiles bleues, de nébuleuses roses et de poussière. La beauté de la galaxie dément le fait qu’en son centre même se trouve un trou noir mal nourri, entouré d’un disque mince et compact d’étoiles, de gaz et de poussière qui ont été pris dans un maelstrom gravitationnel. La gravité du trou noir est si intense que tout ce qui s’aventure près de lui est balayé dans le disque. Ce dernier est si profondément ancré dans le champ gravitationnel intense du trou noir que la lumière du disque de gaz est modifiée, selon les théories de relativité d’Einstein, donnant aux astronomes un aperçu unique des processus dynamiques proches (cf. hubblesite.org).
Pour mieux situer l'astre dans sa constellation :
www.flickr.com/photos/7208148@N02/48686608841/in/datepost...
After seeing yesterday's APOD, a Hubble Legacy Archive image processed by Hunter Wilson; (apod.nasa.gov/apod/ap160309.html) I really enjoyed the presentation, but there were a few things that I didn't like about the way the image was processed. So naturally I decided to have a go at it myself and downloaded the data from the website last night (hla.stsci.edu/) and started tinkering with it this morning. I finished it to an initial satisfactory processing and was quite pleased at the results!
Clustered at the center of this image are six brilliant spots of light, four of them creating a circle around a central pair. Appearances can be deceiving, however, as this formation is not composed of six individual galaxies, but is actually two separate galaxies and one distant quasar imaged four times. Data from the NASA/ESA Hubble Space Telescope also indicates that there is a seventh spot of light in the very center, which is a rare fifth image of the distant quasar. This rare phenomenon is the result of the two central galaxies, which are in the foreground, acting as a lens.
The four bright points around the galaxy pair, and the fainter one in the very center, are in fact five separate images of a single quasar (known as 2M1310-1714), an extremely luminous but distant object. The reason we see this quintuple effect is a phenomenon called gravitational lensing. Gravitational lensing occurs when a celestial object with an enormous amount of mass – such as a pair of galaxies – causes the fabric of space to warp. When light from a distant object travels through that gravitationally warped space, it is magnified and bent around the huge mass. This allows humans here on Earth to observe multiple, magnified images of the far-away source. The quasar in this image actually lies farther away from Earth than the pair of galaxies. The galaxy pair’s enormous mass bent and magnified the light from the distant quasar, giving the incredible appearance that the galaxies are surrounded by four quasars – when in reality, a single quasar lies far beyond them!
Hubble’s Wide Field Camera 3 (WFC3) imaged the trio in spectacular detail. It was installed on Hubble in 2009 during Hubble Servicing Mission 4, Hubble’s final servicing mission. WFC3 continues to provide both top-quality data and fantastic images 12 years after its installation.
Image credit: ESA/Hubble & NASA, T. Treu; Acknowledgment: J. Schmidt
NASA Goddard Space Flight Center enables NASA’s mission through four scientific endeavors: Earth Science, Heliophysics, Solar System Exploration, and Astrophysics. Goddard plays a leading role in NASA’s accomplishments by contributing compelling scientific knowledge to advance the Agency’s mission.
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The NASA/ESA Hubble Space Telescope has observation time devoted to Saturn each year, thanks to the Outer Planet Atmospheres Legacy (OPAL) program, and the dynamic gas giant planet always shows us something new. This latest image heralds the start of Saturn's "spoke season" with the appearance of two smudgy spokes in the B ring, on the left in the image.
The spokes are enigmatic features which appear across Saturn’s rings. Their presence and appearance varies with the seasons — like Earth, Saturn is tilted on its axis and therefore has four seasons. With Saturn's much larger orbit, each season lasts approximately seven Earth years. Equinox occurs when the rings are tilted edge-on to the Sun and marks the height of spokes’ visibility, while during a solstice when the Sun is at its highest or lowest latitude, the spokes disappear.
The shape and shading of spokes varies — they can appear light or dark, depending on the viewing angle, and sometimes appear more like blobs than classic radial spoke shapes, as seen here. The ephemeral features don't last long, but as the planet's autumnal equinox approaches on 6 May 2025, more will appear.
Scientists will be looking for clues to explain the cause and nature of the spokes. It's suspected they are caused by interaction between Saturn's magnetic field and the solar wind, which also causes aurorae to appear on the planet. The hypothesis is that spokes are the smallest, dust-sized, icy ring particles being temporarily electrically charged and levitated, but this has not been confirmed.
Saturn's last equinox occurred in 2009, while the NASA/ESA/ASI Cassini spacecraft was orbiting the gas giant planet for close-up reconnaissance. With Cassini's mission completed in 2017, Hubble is continuing the work of long-term monitoring of changes on Saturn and the other outer planets.
[Image description: A close-up image of the planet Saturn. The rings are level with the viewer, and tilted slightly down.]
Credits: ESA/Hubble, NASA & A. Simon, A. Pagan (STScI); CC BY 4.0
Spotted in Explore by DMC43. Thanks Donna! #228 23/11/08
Pretty chilly here today so back to indoor flowers for the moment!
Spanning from 2003 to 2021, this collection of images from the NASA/ESA Hubble Space Telescope features galaxies that are all hosts to both Cepheid variables and supernovae. These two celestial phenomena are both crucial tools used by astronomers to determine astronomical distance, and have been used to refine our measurement of Hubble’s constant, the expansion rate of the Universe.
Credits: NASA, ESA CC BY 4.0
This image features the spiral galaxy NGC 691, captured in fantastic detail using Hubble’s Wide Field Camera 3 (WFC3). This galaxy is a member of the NGC 691 galaxy group named after it: a group of gravitationally bound galaxies about 120 million light-years from Earth.
Hubble observes objects such as NGC 691 using a range of filters. Each filter only allows certain wavelengths of light to reach Hubble’s WFC3. The resulting filtered images are colored by specialists who make informed choices about which color best corresponds to the wavelengths of light from the astronomical objects that are transmitted by each filter. Combining the colored images from individual filters creates a full-color image. This detailed process provides us with remarkably good insight into the nature and appearance of these objects.
Credit: ESA/Hubble & NASA, A. Riess et al.; Acknowledgment: M. Zamani
NASA Goddard Space Flight Center enables NASA’s mission through four scientific endeavors: Earth Science, Heliophysics, Solar System Exploration, and Astrophysics. Goddard plays a leading role in NASA’s accomplishments by contributing compelling scientific knowledge to advance the Agency’s mission.
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NGC 4666 takes center stage in this image from the NASA/ESA Hubble Space Telescope. This majestic spiral galaxy lies about 80 million light-years away in the constellation Virgo and is undergoing a particularly intense episode of star formation. Astronomers refer to galaxies that rapidly form stars as starburst galaxies. NGC 4666’s starburst is likely due to gravitational interactions with its unruly neighbors – including the nearby galaxy NGC 4668 and a dwarf galaxy, which is a small galaxy made up of a few billion stars.
NGC 4666’s burst of star formation is driving an unusual form of extreme galactic weather known as a superwind – a gigantic transfer of gas from the bright central heart of the galaxy out into space. This superwind is the result of driving winds from short-lived massive stars formed during NGC 4666’s starburst as well as spectacularly energetic supernova explosions. Two supernovae occurred in NGC 4666 within the last decade – one in 2014 and the other in 2019. The star that led to the 2019 supernova was 19 times as massive as our Sun!
Though the torrent of superheated gas emanating from NGC 4666 is truly vast in scale – extending for tens of thousands of light-years – it is invisible in this image. The superwind’s extremely high temperature makes it stand out as a luminous plume in X-ray or radio observations, but it doesn’t show up at the visible wavelengths imaged by Hubble’s Wide Field Camera 3.
Image credit: ESA/Hubble & NASA, O. Graur; Acknowledgment: L. Shatz
#NASA #MarshallSpaceFlightCenter #MSFC #Marshall #HubbleSpaceTelescope #HST #astronomy #space #astrophysics #solarsystemandbeyond #gsfc #Goddard #GoddardSpaceFlightCenter #ESA #EuropeanSpaceAgency #galaxy
Astronomers using NASA’s Hubble Space Telescope have discovered an immense cloud of hydrogen dubbed “The Behemoth” bleeding from a planet orbiting a nearby star. The enormous, comet-like feature is about 50 times the size of the parent star. The hydrogen is evaporating from a warm, Neptune-sized planet, due to extreme radiation from the star.
This phenomenon has never been seen around an exoplanet so small. It may offer clues to how other planets with hydrogen-enveloped atmospheres could have their outer layers evaporated by their parent star, leaving behind solid, rocky cores. Hot, rocky planets such as these that roughly the size of Earth are known as Hot-Super Earths.
“This cloud is very spectacular, though the evaporation rate does not threaten the planet right now,” explains the study’s leader, David Ehrenreich of the Observatory of the University of Geneva in Switzerland. “But we know that in the past, the star, which is a faint red dwarf, was more active. This means that the planet evaporated faster during its first billion years of existence because of the strong radiation from the young star. Overall, we estimate that it may have lost up to 10 percent of its atmosphere over the past several billion years.”
Read more: www.nasa.gov/feature/goddard/hubble-sees-a-behemoth-bleed...
Caption: This artist's concept shows "The Behemoth," an enormous comet-like cloud of hydrogen bleeding off of a warm, Neptune-sized planet just 30 light-years from Earth. Also depicted is the parent star, which is a faint red dwarf named GJ 436. The hydrogen is evaporating from the planet due to extreme radiation from the star. A phenomenon this large has never before been seen around any exoplanet.
Credits: NASA, ESA, and G. Bacon (STScI)
NASA Goddard Space Flight Center enables NASA’s mission through four scientific endeavors: Earth Science, Heliophysics, Solar System Exploration, and Astrophysics. Goddard plays a leading role in NASA’s accomplishments by contributing compelling scientific knowledge to advance the Agency’s mission.
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Ha 15 frames da 10 minuti in bin 1 a -15°C
OIII 10 frames da 10 minuti in bin 1 a -15°C
SII 14 frames da 10 minuti in bin 1 a -15°C
Telescopio di ripresa: TS 102/715 tripletto F5.6 (564mm)
Camera di ripresa: Moravian G2-8300 monocromatica
Montatura: Ioptron Ieq45pro
Guida: Qhy5LII monocromatica su Orion 80/400
Elaborazione: Pixinsight 1.8
Data di ripresa: 05-06-31/07/2018
Often portrayed as destructive monsters that hold light captive, black holes take on a less villainous role in the latest research from NASA's Hubble Space Telescope. A black hole at the heart of the dwarf galaxy Henize 2-10 is creating stars rather than gobbling them up. The black hole is apparently contributing to the firestorm of new star formation taking place in the galaxy. The dwarf galaxy lies 30 million light-years away, in the southern constellation Pyxis.
A decade ago this small galaxy set off debate among astronomers as to whether dwarf galaxies were home to black holes proportional to the supermassive behemoths found in the hearts of larger galaxies. This new discovery has little Henize 2-10, containing only one-tenth the number of stars found in our Milky Way, poised to play a big part in solving the mystery of where supermassive black holes came from in the first place.
Image Credit: NASA, ESA, Zachary Schutte (XGI), Amy Reines (XGI); Image Processing: Alyssa Pagan (STScI)
#NASA #NASAMarshall #Hubble #galaxy #blackhole
This is an image of the Cartwheel Galaxy taken with the NASA/ESA (European Space Agency) Hubble Space Telescope.
The object was first spotted on wide-field images from the U.K. Schmidt telescope and then studied in detail using the Anglo-Australian Telescope.
Lying about 500 million light-years away in the constellation of Sculptor, the cartwheel shape of this galaxy is the result of a violent galactic collision. A smaller galaxy has passed right through a large disk galaxy and produced shock waves that swept up gas and dust — much like the ripples produced when a stone is dropped into a lake — and sparked regions of intense star formation (appearing blue). The outermost ring of the galaxy, which is 1.5 times the size of our Milky Way, marks the shock wave’s leading edge. This object is one of the most dramatic examples of the small class of ring galaxies.
Image Credit: ESA/Hubble & NASA
This NASA/ESA Hubble Space Telescope observation has captured the galaxy CGCG 396-2, an unusual multi-armed galaxy merger which lies around 520 million light-years from Earth in the constellation Orion.
This observation is a gem from the Galaxy Zoo project, a citizen science project in which hundreds of thousands of volunteers classified galaxies to help scientists solve a problem of astronomical proportions — how to sort through the vast amounts of data generated by robotic telescopes. Following a public vote, a selection of the most astronomically intriguing objects from the Galaxy Zoo were selected for follow-up observations with Hubble. CGCG 396-2 is one such object, and was captured in this image by Hubble’s Advanced Camera for Surveys.
The Galaxy Zoo project originated when an astronomer was set an impossibly mind-numbing task; classifying more than 900 000 galaxies by eye. By making a web interface and inviting citizen scientists to contribute to the challenge, the Galaxy Zoo team was able to crowdsource the analysis, and within six months a legion of 100 000 volunteer citizen astronomers had contributed more than 40 million galaxy classifications.
Since its initial success, the Galaxy Zoo project and its successor projects have contributed to more than 100 peer-reviewed scientific articles and led to a rich variety of intriguing astronomical discoveries above and beyond their initial goals. The success of the project also inspired more than 100 citizen science projects on the Zooniverse portal, ranging from analysing data from the ESA Rosetta spacecraft's visit to Comet 67P/Churyumov–Gerasimenko to counting killer whales around remote Alaskan islands!
Credits: ESA/Hubble & NASA, W. Keel; CC BY 4.0
Resting on the tail of the Great Bear in the constellation of Ursa Major lies NGC 5585, a spiral galaxy that is more than it appears.
The many stars and clouds of dust and gas that make up NGC 5585, shown here in this Hubble image, contribute only a small fraction of the total mass of the galaxy. As in many galaxies, this discrepancy can be explained by the abundant yet seemingly invisible presence of dark matter, a mysterious material that astronomers can’t directly observe.
The stellar disk of the galaxy extends over 35,000 light-years across. When compared with galaxies of a similar shape and size, NGC 5585 stands out by having a notably different composition. Contributing to the total mass of the galaxy, it contains a far higher proportion of dark matter.
Hot spots of star formation can be seen along the galaxy’s faint spiral arms. These regions shine a brilliant blue, contrasting strikingly against the ever-black background of space.
Credit: ESA/Hubble & NASA, R. Tully; acknowledgment: Gagandeep Anand
NASA Goddard Space Flight Center enables NASA’s mission through four scientific endeavors: Earth Science, Heliophysics, Solar System Exploration, and Astrophysics. Goddard plays a leading role in NASA’s accomplishments by contributing compelling scientific knowledge to advance the Agency’s mission.
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Resting on the tail of the Great Bear in the constellation of Ursa Major lies NGC 5585, a spiral galaxy that is more than it appears.
The many stars and clouds of dust and gas that make up NGC 5585, shown here in this Hubble image, contribute only a small fraction of the total mass of the galaxy. As in many galaxies, this discrepancy can be explained by the abundant yet seemingly invisible presence of dark matter, a mysterious material that astronomers can’t directly observe.
The stellar disk of the galaxy extends over 35,000 light-years across. When compared with galaxies of a similar shape and size, NGC 5585 stands out by having a notably different composition. Contributing to the total mass of the galaxy, it contains a far higher proportion of dark matter.
Hot spots of star formation can be seen along the galaxy’s faint spiral arms. These regions shine a brilliant blue, contrasting strikingly against the ever-black background of space.
Image Credit: ESA/Hubble & NASA, R. Tully; acknowledgment: Gagandeep Anand
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The galaxy featured in this image from NASA’s Hubble Space Telescope has a shape unlike many of the galaxies familiar to Hubble. Its thousands of bright stars evoke a spiral galaxy, but it lacks the characteristic ‘winding’ structure. The shining red blossoms stand out as well, twisted by clouds of dust – these are the locations of intense star formation. The galaxy also radiates a diffuse glow, much like an elliptical galaxy and its core of older, redder stars. This galactic marvel is known to astronomers as NGC 1156.
NGC 1156 is located around 25 million light-years from Earth, in the constellation Aries. It has a variety of different features that are of interest to astronomers. A dwarf irregular galaxy, it’s also classified as isolated, meaning no other galaxies are nearby enough to influence its odd shape and continuing star formation. The extreme energy of freshly formed young stars gives color to the galaxy, against the red glow of ionized hydrogen gas, while its center is densely packed with older generations of stars.
Image credit: ESA/Hubble & NASA, R. B. Tully, R. Jansen, R. Windhorst
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This cosmic portrait — captured with the NASA/ESA Hubble Space Telescope’s Wide Field Camera 3 — shows a stunning view of the spiral galaxy NGC 4571, which lies approximately 60 million light-years from Earth in the constellation Coma Berenices. This constellation — whose name translates as Bernice’s Hair — was named after an Egyptian queen who lived more than 2200 years ago.
As majestic as spiral galaxies like NGC 4571 are, they are far from the largest structures known to astronomers. NGC 4571 is part of the Virgo cluster, which contains more than a thousand galaxies. This cluster is in turn part of the larger Virgo supercluster, which also encompasses the Local Group which contains our own galaxy, the Milky Way. Even larger than superclusters are galaxy filaments — the largest known structures in the Universe.
This image comes from a large programme of observations designed to produce a treasure trove of combined observations from two great observatories: Hubble and ALMA. ALMA, The Atacama Large Millimeter/submillimeter Array, is a vast telescope consisting of 66 high-precision antennas high in the Chilean Andes, which together observe at wavelengths between infrared and radio waves. This allows ALMA to detect the clouds of cool interstellar dust which give rise to new stars. Hubble’s razor-sharp observations at ultraviolet wavelengths, meanwhile, allows astronomers to pinpoint the location of hot, luminous, newly formed stars. Together, the ALMA and Hubble observations provide a vital repository of data to astronomers studying star formation, as well as laying the groundwork for future science with the NASA/ESA/CSA James Webb Space Telescope.
Credits: ESA/Hubble & NASA, J. Lee and the PHANGS-HST Team; CC BY 4.0
This stunning image by the NASA/ESA Hubble Space Telescope features the spiral galaxy NGC 5643 in the constellation of Lupus (The Wolf). Looking this good isn’t easy; thirty different exposures, for a total of 9 hours observation time, together with the high resolution and clarity of Hubble, were needed to produce an image of such high level of detail and of beauty.
NGC 5643 is about 60 million light-years away from Earth and has been the host of a recent supernova event (not visible in this latest image). This supernova (2017cbv) was a specific type in which a white dwarf steals so much mass from a companion star that it becomes unstable and explodes. The explosion releases significant amounts of energy and lights up that part of the galaxy.
The observation was proposed by Adam Riess, who was awarded a Nobel Laureate in physics 2011 for his contributions to the discovery of the accelerating expansion of the Universe, alongside Saul Perlmutter and Brian Schmidt.
Credits: ESA/Hubble & NASA, A. Riess et al.; CC BY 4.0; Acknowledgement: Mahdi Zamani