We offer two kinds of 3D printable objects in this section. The first is a set of specially-developed fully 3D models, and the second is a set of tactile plates that are developed as relief maps of images to help make the 2D data more experiential.
This tactile plate is a physical relief map based on the intensity of X-ray, Radio and Optical data, depicting a supernova remnant called IC 443, or the Jellyfish Nebula. The plate features a large, raised bubble representing X-rays and radio light from hot gas and dust observed by Chandra and other telescopes. Cloud-like structures, both inside the bubble and stretching outside of the bubble to our right and upper left, are filamentary in nature, as if fingers pulled at the edges of a cotton ball. Stars, felt as raised dots, are flecked across the entire image.
Download the IC 443 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate is a physical relief map based on the intensity of X-ray, Radio and Optical data, depicting a string of star clusters resembling beads on a string in the galaxy cluster SDSS J1531. The plate features a central raised cloud representing X-rays from hot gas observed by Chandra, other less prominent clouds representing radio data, and raised dots, curved lines in ridges showing optical data.
The central cloud spreads out for thousands of light-years toward the region above the central galaxies. The less raised area, somewhat resembling the shape of an upside down spinning top toy, stretches far below the two galaxies and slightly toward our left. This cloud represents the remains of a powerful jet, produced by a supermassive black hole within one of the two central galaxies. In the upper right corner of the image, another slightly raised radio cloud is present. This cloud may be the relic of a counter-jet from the same black hole outburst.
Download the SDSS J1531+3414 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate features a physical relief map based on the intensity of X-ray and Optical data, depicting the galaxy cluster named SPT-CLJ0310-4647. The plate features a slightly-raised cloud representing X-rays from hot gas observed by Chandra. The distant galaxies in and around the clouds of hot gas have been captured in optical data, and are raised above the plane of the X-ray cloud.
The vastness of space is packed with specks. These are the individual galaxies. Some of the galaxies resemble fuzzy-edged dots. In other galaxies, the curving arms of a spiral formation are discernible. At the center of the image, the more indistinct X-ray cloud surrounds several of the cluster’s most prominent galaxies.
Download the SPT-CLJ0310-4647 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate features a physical relief map of Cassiopeia A based on the intensity of X-ray light from Chandra, Infrared light from Webb and Spitzer, and Optical light from Hubble. The resulting tactile plate of Cassiopeia A resembles a disk of electric light with clouds and streaks. An area near the center of the remnant resembles a somewhat circular region of lightning. X-rays from Chandra reveal hot gas, mostly from supernova debris from the destroyed star, and include elements like silicon and iron. X-rays are also present as thin arcs in the outer regions of the remnant.
Data from Webb highlights infrared emission from dust that is warmed up because it is embedded in the hot gas detected by Chandra, and from much cooler supernova debris. Hubble data shows a multitude of stars that dot the field of view.
Download the Cassiopeia A Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate features a physical relief map based on the intensity of X-ray, optical & infrared data, depicting a large region of space where stars have been continuously forming for the past eight to ten million years. At the center of this complex landscape of gas clouds is a supernova remnant known as 30 Doradus B. The remnant likely contains the remains of at least two exploded stars.
The entire image is awash in intricate clouds, and swathes of superheated gas. At our upper lefthand corner is a thick cloud with a texture like cotton candy. At our lower and upper right is a network of clouds that resemble streaks of thick syrup floating in water. A layer of wispy cloud appears to drape across the entire image, but is most evident at our lower left which is free of overlapping gas. Specks of light, which are stars, dot the plate.
In the center of the frame is a raised cloud, flecked with dots, and streaked with lightning-like veins. This is 30 Doradus B, which is delineated by a faint shell of X-rays identified by Chandra. Within this supernova remnant are high energy shocks and winds of particles blowing away from a pulsar.
Download the UHZ1 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
The tactile plate of NGC 2246 features a physical relief map based on the intensity of X-ray, Optical & Infrared data, depicting a cluster of young stars shaped decidedly like a cosmic Christmas tree! The cluster, known as NGC 2264, is in our Milky Way Galaxy, about 2,500 light-years from Earth. Some of the stars in the cluster are relatively small, and some are relatively large, ranging from one tenth to seven times the mass of our Sun.
In this tactile plate, the cluster’s resemblance to a Christmas tree has been enhanced through feature rotation. Optical data is represented by wispy lines and shapes, which creates the boughs and needles of the tree. X-rays detected by Chandra are presented as dots of light on the tree. Infrared data show foreground and background stars as raised specks against the emptiness of space. The plate has been rotated by about 150 degrees from the astronomer’s standard of North pointing upwards. This puts the peak of the roughly conical tree shape near the top of the plate, though it doesn’t address the slight bare patch in the tree’s branches, at our lower right, which should probably be turned to the corner.
Download the NGC 2264 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate of a globular cluster features a physical relief map based on the intensity of X-ray, Infrared & Optical data. A globular cluster is a sphere-shaped collection of stars bound together by gravity.
Scores of tiny stars dot the space, many jutting out of the plate. Like other globular clusters, this conglomeration, named Omega Centauri, is more densely packed near the center.
In Omega Centauri are eleven spider pulsars toward the inner half of the sphere, which obliterate their companion stars with strong winds of particles. Each spider pulsar is the spinning core of a collapsed massive star. As they spin, the spider pulsars emit beams of radiation, like light from a lighthouse. The pulsars also produce winds of particles that methodically strip away their companion stars, layer by layer.
Download the Omega Centauri Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
The tactile plate of UHZ1 behind Abell 2744 features a physical relief map based on the intensity of X-ray and infrared data, depicting a black hole in an early stage of its development, just 470 million years after the Big Bang.
The plate shows data from NASA’s Chandra X-ray Observatory and James Webb Space Telescope. It features scores of seemingly tiny celestial objects. This is the galaxy cluster Abell 2744. These tiny celestial objects are spiral and elliptical galaxies, and gleaming stars. Many of these specks appear to float in a raised, bumpy cloud of X-ray gas in the center of the image, some 3.5 billion light-years from Earth.
Just to the right of center, at the edge of the raised gas cloud, is a tiny speck. This speck is far in the distance, well beyond the Abell galaxy cluster, and difficult to discern from the rest of the data, so we have added a raised box to show its location. It represents a galaxy 13.2 billion light-years from Earth containing a supermassive black hole.
Download the UHZ1 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate is a physical relief map based on the intensity of X-ray data of a pulsar wind nebula, which strongly resembles a ghostly hand with sparkling fingertips.
A pulsar is a highly magnetized collapsed star that rotates and creates jets of matter flowing away from its poles. These jets, along with intense winds of particles, form pulsar wind nebulae. Here, the pulsar wind nebula known as MSH 15-52 resembles a cloud set against a sparse backdrop.
Both NASA’s Chandra X-ray Observatory and the Imaging X-ray Polarimetry Explorer (IXPE) have observed MSH 15-52. Their observations revealed that the shape of this pulsar wind nebula strongly resembles a human hand, including five fingers, a palm and wrist. The blobby spot near the base of the palm is the pulsar itself.
The three longest fingertips of the hand-shape point toward our upper right, or 1:00 on a clock face. There, a small, mottled cloud appears to sparkle like embers. This cloud is part of the remains of the supernova explosion that created the pulsar.
Download the MSH 15-52 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate is a physical relief map based on the intensity of X-ray data of the supernova remnant SN 1006, showing debris from an exploded star that resembles a mottled ball of churning fire. The turbulent supernova remnant appears to be encircled by a thin ring that is most prominent at our lower right and upper left.
At the upper lefthand corner of the plate, the outer ring of the supernova remnant stands out. This ring is part of the supernova’s expanding blast wave, which has been observed in X-ray light by the Chandra X-ray Observatory.
Download the SN 1006 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate features a relief map of a Chandra X-ray image of Eta Carinae, a cosmic explosion that sky watchers have been observing since the middle of the 19th century. About 180 years ago, a huge explosion inside the Eta Carinae star system ejected massive amounts of material in an event dubbed the “Great Eruption”. The resulting gas and debris cloud has been expanding ever since.
In the plate, a distinct ball is encircled by a patchy ring of material. The ball represents X-rays from two massive stars, 30 and 90 times the mass of our sun. These stars are too close together to be felt individually. The oblong gas ring encircling them is tilted, stretching toward our upper right and lower left.
Download the Eta Carinae Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
A close-up of the spiral galaxy NGC 1365, and the supermassive black hole at its center. The galaxy is shown at a dramatic angle, as if the raised plateau of a core is gazing past our right shoulder. Swirls of material, resembling waves in a dark ocean, spiral toward the core, which hangs at our upper left. Spiraling circles, and flecks dot the churning spiral galaxy. In this plate, Chandra X-ray data has been combined with infrared data from NASA’s James Webb Space Telescope.
Download the NGC 1365 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
A bump of light encircled by subtle swirls rockets toward our upper left, leaving two, long, streaming tails behind it. This is ESO 137-001, a galaxy moving through space at 1.5 million miles per hour. Set against a background packed with pointy stars, the galaxy's twin tails feature streams of raised material floating inside superheated gas. Clusters of dots, hydrogen atoms, seem to travel with the galaxy, alongside the flowing tails. The object depicts X-ray light collected from Chandra, light from hydrogen atoms from ESO’s Very Large Telescope, and optical and infrared light from Hubble.
Download the ESO 137-001 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
The remains of a white dwarf star that was destroyed by a thermonuclear explosion. The image plate represents X-ray light from Chandra, optical light from the Hubble Space Telescope and infrared light from the Spitzer Space Telescope. The remnant resembles a knotted ball of crackling energy, set against a sparse sky dotted with specks. Streaks and patches of mottled texture represent debris from the destroyed star. A web of veins encircles and weaves through the knot, representing the powerful blast wave captured by Chandra.
Download the Kepler's Supernova Remnant Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
The busy and active center of our Milky Way galaxy resembles a cloud, dotted with several orbs of light. Surrounding the cloud is a dense field of specks that entirely blankets the sky. In this plate, all raised areas represent X-ray light from Chandra.
Download the Galactic Center Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
The aftermath of a collapsed and exploded star sending a jet of particles into space. The pulsar resembles a soft, pillowy, bean in a pocket of gas. A faint stream of gas, the X-ray jet, seems to shoot from the pocket, heading into the distance at our upper right. Raised markings in the bean shape suggest narrow eyes and an open mouth, giving the pulsar a squinting happy face. The tactile plate combines data from NASA’s Imaging X-ray Polarimetry Explorer, Chandra, and Hubble.
Download the Vela Pulsar Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate features a distant galaxy cluster known as SPT2215. The galaxy cluster resembles a raised cloud with a raised peak at its core. The cluster is set against the emptiness of space, which is dotted with raised pinpoints of light. A combination of X-ray, ultraviolet, optical, and infrared information was used to create the plate.
Download the SPT-CL J2215-3537 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
The primary image features a top panel and a bottom panel. The top panel offers an image of the Milky Way's core, courtesy of Chandra's X-ray Observatory. In this rendering, the Milky Way resembles layers of neon pink and dark blue clouds, dotted with specks of light in similar colors. Two bright spots in light blue glow to our left of center.
Download the Sagittarius A* / Galactic Center Plate STL file
Download the Sagittarius A* / Galactic Center Plate GLB file
Download the Sagittarius A* / Galactic Center Plate OBJ file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
In the system R Aquarii, a white dwarf star and a red giant star are in orbit around one another. In the composite tactile plate, the two stars are represented by a raised area at the center of the image. The stars sit at the center of a giant, wispy cross that extends to all four edges of the plate. This structure is evidence of outbursts generated by the pair of stars. A wavy line creates a ridge of shapes along the horizontal bar of the cross. These shapes represent an X-ray jet from the white dwarf star. The jet creates shockwaves as it bangs into surrounding material.
Download the R Aquarii Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
Stephan’s Quintet is a gathering of four galaxies held together by gravity. The fifth galaxy appears to be part of the group from our perspective, but is in fact much closer to us. The composite tactile plate combines optical, X-ray, and infrared data. In it, the galaxies are clumped together, resembling the wings of a butterfly. The distinct clouds are marbled with bumpy veins, and connected by streaks of material.
Download the Stephan's Quintet Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
Messier 104 is a spiral galaxy, but from Earth, we observe its edge, not its face. In the composite tactile plate, Messier 104 resembles a cloud with a raised core, encircled by a horizontal ring of spiraling arms. In the background are dozens of dots, which represent distant stars and galaxies.
Download the M104 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This release features three tactile plates of a galaxy group plunging into a galaxy cluster, one of the largest structures in the universe. The first two plates, both labeled “Coma Cluster,” show the NGC 4839 galaxy group approaching the heart of the Coma Galaxy cluster. The third plate, labeled “NGC 4839,” is a closeup of the galaxy group and its extraordinary tail.
The wide field of view in the first two plates depicts the Coma galaxy cluster as a large gas cloud with a hazy core. Sitting to our left of center, this cloud-within-a-cloud is dotted with hundreds of pointy specks. Each speck is a distinct galaxy. At the lower right of this plate, a smaller cloud approaches. This is the galaxy group NGC 4839 and its comet-like tail. This cloud is vaguely shaped like a slice of pie, with a protruding dot at the tip. This tip points toward the core as it enters the outer edge of the cluster’s gas cloud. The cluster, the group, and the cloud around them are set against a more sparse, starry sky. In these two plates, they are presented using data from the XMM-Newton observatory, and the Sloan Digital Sky Survey. In one plate, an arrow labeled “NGC 4839” points directly to the tip of NGC 4839.
The third plate is a close up of the approaching galaxy group, which is much less pie-shaped from this perspective. This plate using Chandra data has been rotated such that the cluster is traveling horizontally toward our left, not our upper left as in the previous two plates. At the tip of the galaxy group is a large protruding dot. This is the ‘Head’ of the galaxy group. Here, the cloud trailing behind the head is raised and flecked with pointy specks. This is a tail of hot gas stripped off the galaxy group’s head as it plunges into the cloud of gas surrounding the Coma cluster. This comet-like tail is 1.5 million light-years long, and is filled with key ingredients to make future generations of stars and planets.
Download the NGC 4839 Plate STL file
Download the NGC 4839 Plate GLB file
Download the NGC 4839 Plate OBJ file
Download the Coma Cluster/NGC 4839 (Labeled) Plate STL file
Download the Coma Cluster/NGC 4839 (Labeled) Plate GLB file
Download the Coma Cluster/NGC 4839 (Labeled) Plate OBJ file
Download the Coma Cluster/NGC 4839 (Unlabeled) Plate STL file
Download the Coma Cluster/NGC 4839 (Unlabeled) Plate GLB file
Download the Coma Cluster/NGC 4839 (Unlabeled) Plate OBJ file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
The Eagle Nebula is often referred to as the “Pillars of Creation”. In this image, tall columns of gas and dust emerge from the bottom edge of the plate, stretching toward our upper right. Backed by mist, the cloudy columns are surrounded by dozens of dots; massive stars emitting enormous amounts of X-rays. The shapes in this composite create a dream-like plane. Churning with turbulent gas and dust, the columns lean to our right with small offshoots pointing in the same direction. These details evoke a scene of yearning cloud creatures at dusk, pointing at something just out of frame.
Download the M16 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
M74 is a spiral galaxy like our own Milky Way. Oriented face-on from our vantage point on Earth, the galaxy’s sparkling arms spiral out from a raised core. The core feels vibrant and dense, crackling with activity. High-energy stars dot the lengths of the spiraling arms. Webs of dust crisscross the space between the curving arms, also known as dust lanes.
Download the M74 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
Spiral galaxy NGC 1672 is shown face on. This spiral galaxy has two major arms curving away from the swirling light at its core. One arm extends to our lower left with a gentle upward curve. The other extends to our upper right with a curve reminiscent of a question mark. Both arms have a cloudy quality, and are dotted with stars of varying sizes. In this galaxy, categorized as a “barred” spiral, the arms don’t seem to reach the raised core. The space around the core is a swirl of murky cloud.
Download the NGC 1672 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
In the NGC 346 star cluster, thousands of specks of light blanket the image. A ribbon of thick cloud runs along the bottom edge of the image, rounds our lower right corner, and streaks up the right side. A similar patch of roiling cloud can be found near our upper left. Between these gas plumes, centered near the top of the image, the star cluster is densely packed with specks of light. At our left, a large dot is surrounded by speckled mist. This is a hot, young, massive star, sending powerful winds outward from its surface. A patch of smaller dots, other young stars, can be found near the center of the image.
Download the NGC 346 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate shows the galaxy Messier 84 (M84). The file for this plate can be downloaded and 3D-printed for learners to touch.
Download the M84 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts the central area of the spiral galaxy NGC 253 as a physical relief map based on the intensity of X-ray data captured by Chandra. The file for this plate can be downloaded and 3D-printed for learners to touch.
At the center of the spiral galaxy is a large blob. That is the galactic wind of extremely hot gas, detected by the Chandra X-ray Observatory.
Download the NGC 253 Composite Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts the central area of the spiral galaxy NGC 253 as a physical relief map based on the intensity of X-ray data captured by Chandra and infrared and optical data from other telescopes. The file for this plate can be downloaded and 3D-printed for learners to touch.
At the center of the spiral galaxy is a large blob. That is the galactic wind of extremely hot gas, detected by the Chandra X-ray Observatory. Surrounding the blob are mottled clouds and swirling structures from the infrared and optical light captured. In the image, hot winds are blowing in opposite directions away from the center of the galaxy. These powerful winds are spreading stellar material to the galaxy's next generation of stars and planets.
Download the NGC 253 Composite Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plates is a composite image of galaxy collisions as a physical relief map based on the intensity of X-ray data captured by Chandra and optical data from other telescopes.
This plate features two colliding dwarf galaxies in the early stages of merging. In this pair of dwarf galaxies, a cloud with a raised circle at its core sits above a larger companion with a similar shape. These clouds are the dwarf galaxies known as Vinteuil and Elstir. The raised cores represent black holes tracked by Chandra. Elstir, the larger object, near the bottom, features wispy tendrils. Several of these tendrils appear to reach up toward the smaller galaxy, Vinteuil, creating a bridge of gas and stars.
Download the Elstir and Vinteuil Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plates is a composite image of galaxy collisions as a physical relief map based on the intensity of X-ray data captured by Chandra and optical data from other telescopes.
The plate features two colliding dwarf galaxies in the late stages of merging into one larger galaxy. In this plate, a cloud represents gas and stars in the merging galaxies. The shape at its core represents a black hole being tracked by the Chandra X-ray Observatory. Directly above the cloud is another black hole, followed by a tail, curving up and to our right, caused by tidal effects from the ongoing collision. Because these two dwarf galaxies are in the final stages of merging, scientists have given the combined galaxy a single name: Mirabilis.
Download the Mirabilis Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
Abell 2256 is a collision of galaxy clusters about 780 million light-years away. This tactile plate depicts Abell 2256 as a physical relief map based on the intensity of X-ray data captured by Chandra as well as radio, optical and infrared data. The file for this plate can be downloaded and 3D-printed for learners to touch.
This plate features a composite image of at least three galaxy clusters colliding in a jumbled scene. The resulting giant galaxy cluster, Abell 2256, resembles a grainy, pixelated cloud topped with licks of flaming hair. The “hair,” or relics, are the results of shockwaves, likely generated by the collision of gas from the different clusters. Near the lower left sits the oval-shaped cloud, the center of the combined galaxy cluster. Shooting out of the giant cluster, angled toward our upper-middle right, is a straight, thin line. This is a jet; a stream of particles blasting away from a giant black hole. A second, much shorter jet crosses the tip of the first jet near the right-hand side of the image.
In the giant cluster, on the right hand side, are several irregular shapes. These are filaments, the result of jets interacting with gas. Three other irregular filaments can be found to our left, just outside of the giant cluster.
Download the Abell 2256 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
30 Doradus, otherwise known as the Tarantula Nebula, is a region of active star formation in a neighboring galaxy. This tactile plate depicts 30 Doradus as a physical relief map based on the intensity of X-ray data captured by the Chandra X-ray Observatory and infrared data from the James Webb Space Telescope. The file for this plate can be downloaded and 3D-printed for learners to touch.
In the plate, small specks of light and larger points of stars interact with gas clouds. The brightest and most prominent cloud of X-ray gas appears at the center of the image, roughly shaped like an upward pointing triangle. Darker X-ray clouds can be found near the right and left edges of the image. Thinner patches resembling clouds of roiling fire are the infrared light. The brightest and most prominent infrared cloud appears at the upper left, roughly shaped like a downward pointing triangle. Wispy patches outline the upward pointing bright triangle in the center of the image. Inside this frame is a very bright star with six long, thin, diffraction spikes. Beside it is a cluster of smaller bright specks showing young stars in the nebula.
Download the 30 Doradus Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
NGC 3293 is a star cluster about 8,300 light years from Earth. This tactile plate depicts NGC 3293 as a physical relief map based on the intensity of X-ray data captured by Chandra and infrared data from Spitzer and Herschel. The file for this plate can be downloaded and 3D-printed for learners to touch.
This image of NGC 3293 resembles a cone of bright stars and wispy clouds, set against a starry sky. The narrow point of the roughly cone-shaped cloud rests in the center of the image with the wide mouth at our upper right. The narrow end of the cone shape features dozens of large, bright, gleaming stars as sharp points. The background of the plate is packed with more stars that make up the cluster.
Download the NGC 3293 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
RCW 36 is a region of star formation about 2,900 light-years from Earth. This tactile plate depicts RCW 36 as a physical relief map based on the intensity of X-ray data captured by Chandra and infrared data from Herschel. The file for this plate can be downloaded and 3D-printed for learners to touch.
The plate depicts a large hot gas cloud flecked with dots, where the dots are new stars, a major source of the region’s hot gas. At our lower left and upper right are two large cavities, or voids, carved out of the gas. In the center of the image is a ring of gas wrapping around the central star cluster.
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
V404 Cygni is a binary system where a stellar-mass black hole is in orbit with a “normal” star. This tactile plate depicts V404 Cygni as a physical relief map based on the intensity of X-ray data captured by Chandra. The file for this plate can be downloaded and 3D-printed for learners to touch.
At the very center of the V404 system is a black hole (which cannot be felt as it is not visible in the image) surrounded by material that has produced bursts of radiation, or light. These bursts expand outward in concentric rings which reflect off gas and dust clouds. The rings of radiation are grainy and blurred in texture, like curved tire marks left in wet snow. The smallest ring, closest to the center, is tightest and brightest. The largest ring, furthest from the core, is most faint and appears to have dissipated.
Download the V404 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts a system of galaxy clusters known as Abell 98, as a physical relief map based on the intensity of X-ray data captured by Chandra and optical data from the WIYN telescope. The file for this plate can be downloaded and 3D-printed for learners to touch.
The plate of Abell 98, about 1.4 billion light years from Earth, depicts little specks — mostly galaxies. Near the top and bottom of the plate are clouds of gas, each with a cluster of galaxies at its core. The two galaxy clusters are in the early stages of a collision. Upon close inspection, a faint corridor of gas can be found bridging the space between the clusters. Scientists have proposed that this X-ray bridge between the clusters contains some of the unaccounted-for mass in the universe. Hidden in this bridge are gigantic strands, or filaments, of hot gas.
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts the Carina Nebula as a physical relief map based on the intensity of X-ray data captured by Chandra and infrared data captured by the Webb Space Telescope. The file for this plate can be downloaded and 3D-printed for learners to touch.
GThe Carina Nebula resembles a mountain range backed by a hazy night sky. A curtain of dust and gas in the nebula occupies the bottom half of the plate. The sky-like area above is streaked with vertical bands of haze which rise from the nebula below. Faint cloudy areas show hot gas that was blown away from massive stars. A starfield of specks blankets the entire plate. Three thin long diffraction spikes entering the image at our upper right hint at the presence of a bright star just out of view.
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts the galaxy cluster SMACS 0723 as a physical relief map based on the intensity of X-ray data captured by Chandra and infrared data captured by the Webb Space Telescope. The file for this plate can be downloaded and 3D-printed for learners to touch.
Galaxy cluster SMACS 0723 contains hundreds of individual galaxies in a sea of black space. Here the galaxies resemble specks of light. Some feel with diffraction spikes radiating from the center. Some feel like tiny swirling pinwheels. Some of the galaxies located far behind the cluster resemble short arcing streaks, their light having been bent by the mass of galaxies in the cluster. Near the center of the image, where some of the brightest galaxies reside, is a faint, haze. This is superheated gas with a total mass of about 100 trillion times that of the sun, revealed by the Chandra observatory.
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts the Cartwheel galaxy as a physical relief map based on the intensity of X-ray data captured by Chandra and infrared data captured by the Webb Space Telescope. The file for this plate can be downloaded and 3D-printed for learners to touch.
The Cartwheel galaxy presents as a disk with an outer ring, and a solid, slightly off-center spiraling core. Linking the smooth core and the irregular outer ring are wispy plumes of silicate dust which resemble twisted spokes on a bicycle wheel. At the upper left of the plate are two companion galaxies which appear to be about the same size as the core of the Cartwheel galaxy. One companion galaxy is shaped like a backwards S, and is marked by bright dots and tangles of fine crinkly lines. Below it, the second companion galaxy appears delicate and smooth, like a faded swirl of cotton candy.
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts a group of galaxies, Stephan’s Quintet, as a physical relief map based on the intensity of X-ray data captured by Chandra and infrared data captured by the Webb and Spitzer Space Telescopes. The file for this plate can be downloaded and 3D-printed for learners to touch.
The plate of Stephan’s Quintet shows five galaxies. Two of the galaxies appear close together at the center of the plate. One appears directly above, and another slightly to our left near the bottom of the image. Each of these four galaxies presents as an irregular dot of brilliant light surrounded by a glowing haze. A fifth galaxy peaks out from the center left in an oval shape marbled with a tangle of lines. Similar tangles appear around the two galaxies at the center of the image, and the galaxy above them. Above the two galaxies at the center is a squiggly cloud. This is a shock wave uncovered by the Chandra data. Scattered across the image are many specks — gleaming stars and distant galaxies.
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts the central area of the spiral galaxy NGC 253 as a physical relief map based on the intensity of X-ray data captured by Chandra and infrared and optical data from other telescopes. The file for this plate can be downloaded and 3D-printed for learners to touch.
At the center of the spiral galaxy is a large blob. That is the galactic wind of extremely hot gas, detected by the Chandra X-ray Observatory. Surrounding the blob are mottled clouds and swirling structures from the infrared and optical light captured. In the image, hot winds are blowing in opposite directions away from the center of the galaxy. These powerful winds are spreading stellar material to the galaxy's next generation of stars and planets.
Download the NGC 253 Composite Plate STL file
Download the NGC 253 Composite Plate GLB file
Download the NGC 253 Composite Plate OBJ file
Download the NGC 253 X-ray Only Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This pair of tactile plates includes two composite images of galaxy collisions as physical relief maps based on the intensity of X-ray data captured by Chandra and optical data from other telescopes.
The first plate features two colliding dwarf galaxies in the late stages of merging into one larger galaxy. In this plate, a cloud represents gas and stars in the merging galaxies. The shape at its core represents a black hole being tracked by the Chandra X-ray Observatory. Directly above the cloud is another black hole, followed by a tail, curving up and to our right, caused by tidal effects from the ongoing collision. Because these two dwarf galaxies are in the final stages of merging, scientists have given the combined galaxy a single name: Mirabilis.
The second plate features two colliding dwarf galaxies in the early stages of merging. In this pair of dwarf galaxies, a cloud with a raised circle at its core sits above a larger companion with a similar shape. These clouds are the dwarf galaxies known as Vinteuil and Elstir. The raised cores represent black holes tracked by Chandra. Elstir, the larger object, near the bottom, features wispy tendrils. Several of these tendrils appear to reach up toward the smaller galaxy, Vinteuil, creating a bridge of gas and stars.
Download the Mirabilis Plate STL file
Download the Mirabilis Plate GLB file
Download the Mirabilis Plate OBJ file
Download the Elstir & Vinteuil Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
Abell 2256 is a collision of galaxy clusters about 780 million light-years away. This tactile plate depicts Abell 2256 as a physical relief map based on the intensity of X-ray data captured by Chandra as well as radio, optical and infrared data. The file for this plate can be downloaded and 3D-printed for learners to touch.
This plate features a composite image of at least three galaxy clusters colliding in a jumbled scene. The resulting giant galaxy cluster, Abell 2256, resembles a grainy, pixelated cloud topped with licks of flaming hair. The “hair,” or relics, are the results of shockwaves, likely generated by the collision of gas from the different clusters. Near the lower left sits the oval-shaped cloud, the center of the combined galaxy cluster. Shooting out of the giant cluster, angled toward our upper-middle right, is a straight, thin line. This is a jet; a stream of particles blasting away from a giant black hole. A second, much shorter jet crosses the tip of the first jet near the right-hand side of the image.
In the giant cluster, on the right hand side, are several irregular shapes. These are filaments, the result of jets interacting with gas. Three other irregular filaments can be found to our left, just outside of the giant cluster.
Download the Abell 2256 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
30 Doradus, otherwise known as the Tarantula Nebula, is a region of active star formation in a neighboring galaxy. This tactile plate depicts 30 Doradus as a physical relief map based on the intensity of X-ray data captured by the Chandra X-ray Observatory and infrared data from the James Webb Space Telescope. The file for this plate can be downloaded and 3D-printed for learners to touch.
In the plate, small specks of light and larger points of stars interact with gas clouds. The brightest and most prominent cloud of X-ray gas appears at the center of the image, roughly shaped like an upward pointing triangle. Darker X-ray clouds can be found near the right and left edges of the image. Thinner patches resembling clouds of roiling fire are the infrared light. The brightest and most prominent infrared cloud appears at the upper left, roughly shaped like a downward pointing triangle. Wispy patches outline the upward pointing bright triangle in the center of the image. Inside this frame is a very bright star with six long, thin, diffraction spikes. Beside it is a cluster of smaller bright specks showing young stars in the nebula.
Download the 30 Doradus Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
NGC 3293 is a star cluster about 8,300 light years from Earth. This tactile plate depicts NGC 3293 as a physical relief map based on the intensity of X-ray data captured by Chandra and infrared data from Spitzer and Herschel. The file for this plate can be downloaded and 3D-printed for learners to touch.
This image of NGC 3293 resembles a cone of bright stars and wispy clouds, set against a starry sky. The narrow point of the roughly cone-shaped cloud rests in the center of the image with the wide mouth at our upper right. The narrow end of the cone shape features dozens of large, bright, gleaming stars as sharp points. The background of the plate is packed with more stars that make up the cluster.
Download the NGC 3293 Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
RCW 36 is a region of star formation about 2,900 light-years from Earth. This tactile plate depicts RCW 36 as a physical relief map based on the intensity of X-ray data captured by Chandra and infrared data from Herschel. The file for this plate can be downloaded and 3D-printed for learners to touch.
The plate depicts a large hot gas cloud flecked with dots, where the dots are new stars, a major source of the region’s hot gas. At our lower left and upper right are two large cavities, or voids, carved out of the gas. In the center of the image is a ring of gas wrapping around the central star cluster.
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
V404 Cygni is a binary system where a stellar-mass black hole is in orbit with a “normal” star. This tactile plate depicts V404 Cygni as a physical relief map based on the intensity of X-ray data captured by Chandra. The file for this plate can be downloaded and 3D-printed for learners to touch.
At the very center of the V404 system is a black hole (which cannot be felt as it is not visible) surrounded by material that has produced bursts of radiation, or light. These bursts expand outward in concentric rings which reflect off gas and dust clouds. The rings of radiation are grainy and blurred in texture, like curved tire marks left in wet snow. The smallest ring, closest to the center, is tightest and brightest. The largest ring, furthest from the core, is most faint and appears to have dissipated.
Download the V404 Cygni Plate STL file
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts a system of galaxy clusters known as Abell 98, as a physical relief map based on the intensity of X-ray data captured by Chandra and optical data from the WIYN telescope. The file for this plate can be downloaded and 3D-printed for learners to touch.
The plate of Abell 98, about 1.4 billion light years from Earth, depicts little specks — mostly galaxies. Near the top and bottom of the plate are clouds of gas, each with a cluster of galaxies at its core. The two galaxy clusters are in the early stages of a collision. Upon close inspection, a faint corridor of gas can be found bridging the space between the clusters. Scientists have proposed that this X-ray bridge between the clusters contains some of the unaccounted-for mass in the universe. Hidden in this bridge are gigantic strands, or filaments, of hot gas.
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts a star, Zeta Ophiuchi as a physical relief map based on the intensity of the X-ray data captured by Chandra and the infrared data captured by Spitzer. The file for this plate can be downloaded and 3D-printed for learners to touch.
The star Zeta Ophiuchi, which is about 20 times more massive than our Sun, is the main source located at the center of the image. The shockwave appears to the left of the star, with a curve like an archer's bow. Astronomers believe that this shockwave was formed by matter blowing away from Zeta Ophiuchi's surface and slamming into gas in its path, as the star moves from right to left. There are thinner, fainter clouds that streak the entire plate. These faint clouds, felt as thin ridges, represent the gas in the path of the star's shockwave. In the background, small specks, or stars, dot the blankness of space.
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts SNR 0519-69.0, the remnant of a supernova, as a physical relief map based on the intensity of the X-ray data captured by Chandra. The file for this plate can be downloaded and 3D-printed for learners to touch.
On the plate, a mottled blob floats in a dark sky. The blob is the remnant of the supernova, the debris from an exploded white dwarf star. This star exploded several hundred years ago, within Earth's timeframe. Across the surface of the supernova remnant, bulges in the shape are like the lines between the rounded plates on a turtle's shell.
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts supernova remnant G292, as a physical relief map based on the intensity of the X-ray data captured by Chandra. The file for this plate can be downloaded and 3D-printed for learners to touch.
The G292.0+1.8 supernova remnant contains a pulsar moving at over a million miles per hour, as marked in the Chandra image. Pulsars are rapidly spinning neutron stars that can form when massive stars run out of fuel, collapse, and explode. Sometimes these explosions produce a “kick,” which sent this pulsar.
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts bright glowing quasar H1821+643 powered by a supermassive black hole, as a physical relief map based on the intensity of the X-ray data captured by Chandra. The file for this plate can be downloaded and 3D-printed for learners to touch.
The quasar can be felt at the center of the image and sits in the middle of a hazy cloud. This cloud is hot gas in the cluster of galaxies where the quasar resides, as observed by NASA’s Chandra X-ray Observatory.
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender
This tactile plate depicts our Milky Way galaxy as a physical relief map based on the intensity of the data captured in optical light. Sagittarius A* is located at the core of the galaxy in the center of the plate. The file for this plate can be downloaded and 3D-printed for learners to touch.
3D Print Credit: NASA/CXC/A. Jubett, K.Arcand et al., using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender; Photo Credit: ESO/S. Brunier
This tactile plate depicts the center of the Milky Way at very close proximity to the central supermassive black hole, Sagittarius A*, as a physical relief map based on the intensity of the radio data captured by the Event Horizon Telescope (EHT). The file for this plate can be downloaded and 3D-printed for learners to touch.
This image showcases Sagittarius A*, the supermassive black hole at the heart of our Milky Way galaxy. Gas in a glowing ring surrounds the black hole’s “event horizon”, a boundary from which nothing can escape. The ring features three bright spots and a fuzzy aura, set against a solid background. The ring is created by light bending in the intense gravity around the black hole at the center, which has a mass some 4 million times greater than that of our Sun.
3D Print Credit: NASA/CXC/A. Jubett, K.Arcand et al., using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender; Photo Credit: ESO/S. Brunier
This tactile plate depicts a larger area surrounding the Milky Way’s central supermassive black hole, Sagittarius A*, as a physical relief map based on the intensity of the X-ray data captured by NASA’s Chandra X-ray Observatory. Sagittarius A*, near the center, is marked with an arrow. The file for this plate can be downloaded and 3D-printed for learners to touch.
3D Print Credit: NASA/CXC/A. Jubett, K.Arcand et al., using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender; Photo Credit: NASA/CXC/UCLA/Z.Li et al.
This tactile plate depicts NGC 4424, a spiral galaxy, as a physical relief map based on the intensity of the X-ray data captured by Chandra and the optical data captured by Hubble. The file for this plate can be downloaded and 3D-printed for learners to touch.
The spiral galaxy is observed from the side, making the spiral structure less evident, like observing a frisbee only from the side. The center of this galaxy is expected to host a large black hole estimated to contain a mass between about 60,000 and 100,000 Suns. There are also likely to be millions of stellar-mass black holes, which contain between about 5 and 30 solar masses, spread throughout the galaxy.
3D Print Credit: NASA/CXC/A. Jubett, using software by Tactile Universe/N. Bonne & C. Krawczyk & Blender