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Herbig-Haro 46/47 (NIRCam Image)
These stars have a lot of energy to let loose!
NASA’s James Webb Space Telescope has captured a tightly bound pair of actively forming stars, known as Herbig-Haro 46/47, in high-resolution near-infrared light. Look for them at the center of the red diffraction spikes. The stars are buried deeply, appearing as an orange-white splotch. They are surrounded by a disk of gas and dust that continues to add to their mass.
Herbig-Haro 46/47 is an important object to study because it is relatively young – only a few thousand years old. Stars take millions of years to fully form. Targets like this also give researchers insight into how stars gather mass over time, potentially allowing them to model how our own Sun, a low-mass star, formed.
The two-sided orange lobes were created by earlier ejections from these stars. The stars’ more recent ejections appear in a thread-like blue, running along the angled diffraction spike that covers the orange lobes.
Actively forming stars ingest the gas and dust that immediately surrounds them in a disk (imagine an edge-on circle encasing them). When the stars “eat” too much material in too short a time, they respond by sending out two-sided jets along the opposite axis, settling down the star’s spin, and removing mass from the area. Over millennia, these ejections regulate how much mass the stars retain.
Don’t miss the delicate, semi-transparent blue cloud. This is a region of dense dust and gas, known as a nebula. Webb’s crisp near-infrared image lets us see through its gauzy layers, showing off a lot more of Herbig-Haro 46/47, while also revealing a deep range of stars and galaxies that lie far beyond it. The nebula’s edges transform into a soft orange outline, like a backward L along the right and bottom.
The blue nebula influences the shapes of the orange jets shot out by the central stars. As ejected material rams into the nebula on the lower left, it takes on wider shapes, because there is more opportunity for the jets to interact with molecules within the nebula. Its material also causes the stars’ ejections to light up.
Over millions of years, the stars in Herbig-Haro 46/47 will fully form – clearing the scene.
Take a moment to linger on the background. A profusion of extremely distant galaxies dot Webb’s view. Its composite NIRCam (Near-Infrared Camera) image is made up of several exposures, highlighting distant galaxies and stars. Blue objects with diffraction spikes are stars, and the closer they are, the larger they appear. White-and-pink spiral galaxies sometimes appear larger than these stars, but are significantly father away. The tiniest red dots, Webb’s infrared specialty, are often the oldest, most distant galaxies.
NIRCam was built by a team at the University of Arizona and Lockheed Martin’s Advanced Technology Center.
Extended Description and Image Alt Text
Extended Description
At the center is a thin horizontal orange cloud known as Herbig-Haro 46/47 that is uneven with rounded ends, and tilted from bottom left to top right. It takes up about two-thirds of the length of this angle, but is thin at the opposite angle. At its center is a set of very large red-and-pink diffraction spikes in Webb’s eight-pointed pattern. The vertical spikes extend almost to the top and bottom of the frame. The smaller, fainter diffraction spikes in the center are aligned at a true horizontal, but one set of the longer, more opaque spikes run along the orange cloud. At the middle of the diffraction spikes is a yellow-white blob, which hides two tightly orbiting stars.
The orange lobe to the left is fatter, ending in a rounder edge. Overall, this lobe is more continuous, though there’s an absence of matter toward the bottom center. Just off the edge of this lobe is a tiny red arc that curves in the opposite direction and is fully separated from the lobe.
The right lobe is thinner overall, and ends in a smaller orange semi-circle that has a faint purple outline. Just off the edge of this lobe, also fully separated, is a slightly smaller orange sponge-like blob. A thin, undulating blue line runs from the central stars through the right lobe, and a fainter one is partially covered by the red diffraction spike.
A delicate, semi-transparent blue cloud known as a nebula covers the majority of the orange lobes, but ends in a light orange line about halfway before the end of the right lobe. It extends toward the top and fades to the left, not extending beyond the left lobe. Along the right and bottom edge, the nebula appears in a soft orange outline, like a backward L.
To the bottom right of the central red star with prominent diffraction spikes are two large foreground stars that have large blue diffraction spikes. Other larger blue stars dot the scene, but their diffraction spikes are less than half or a quarter of the size. All across the image, the background is filled with tiny stars with miniature diffractions spikes, circular and spiral galaxies in whites and pinks, and tiny red dots that represent the most distant galaxies.
Image Alt Text
At the center is a thin horizontal orange cloud tilted from bottom left to top right. It takes up about two-thirds of the length of this angle, but is thin at the opposite angle. At its center is red-and-pink star with prominent, eight-pointed diffraction spikes. It has a central yellow-white blob. The background is filled with stars and galaxies.
About the Object
- R.A. PositionR.A. PositionRight ascension – analogous to longitude – is one component of an object's position.08:25:43.6
- Dec. PositionDec. PositionDeclination – analogous to latitude – is one component of an object's position.-51:00:36
- ConstellationConstellationOne of 88 recognized regions of the celestial sphere in which the object appears.Vela
- DistanceDistanceThe physical distance from Earth to the astronomical object. Distances within our solar system are usually measured in Astronomical Units (AU). Distances between stars are usually measured in light-years. Interstellar distances can also be measured in parsecs.1470 light-years
- DimensionsDimensionsThe physical size of the object or the apparent angle it subtends on the sky.Image is 7.3 arcmin across (about 3.1 light-years)
About the Data
- Data DescriptionData DescriptionProposal: A description of the observations, their scientific justification, and the links to the data available in the science archive.
Science Team: The astronomers who planned the observations and analyzed the data. "PI" refers to the Principal Investigator.This image was created from JWST data from proposal: 4441 (K. Pontoppidan)
- InstrumentInstrumentThe science instrument used to produce the data.NIRCam
- Exposure DatesExposure DatesThe date(s) that the telescope made its observations and the total exposure time.May 24, 2023
- FiltersFiltersThe camera filters that were used in the science observations.F115W, F187N, F200W, F335M, F444W, F470N
- Object NameObject NameA name or catalog number that astronomers use to identify an astronomical object.HH 46/47
- Object DescriptionObject DescriptionThe type of astronomical object.A complex of Herbig-Haro objects
- Release DateJuly 26, 2023
- Science ReleaseWebb Snaps Highly Detailed Infrared Image of Actively Forming Stars
- CreditImage: NASA, ESA, CSA; Image Processing: Joseph DePasquale (STScI), Anton Koekemoer (STScI)
These images are a composite of separate exposures acquired by the James Webb Space Telescope using the NIRCam instrument. Several filters were used to sample specific wavelength ranges. The color results from assigning different hues (colors) to each monochromatic (grayscale) image associated with an individual filter. In this case, the assigned colors are: Blue: F115W, Cyan: F187N, Green: F200W, Yellow: F335M, Orange: F444W, Red: F470N
Related Images & Videos
Herbig-Haro 46/47 (NIRCam Compass Image)
Six near-infrared images from NIRCam (the Near-Infrared Camera) aboard the James Webb Space Telescope make up this composite of Herbig-Haro 46/47. The north and east compass arrows show the orientation of the image on the sky. Note that the relationship between north and east on...
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Laura Betz
NASA’s Goddard Space Flight Center
Greenbelt, Maryland
laura.e.betz@nasa.gov
NASA, ESA, CSA
Joseph DePasquale (STScI), Anton Koekemoer (STScI)
