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Chandra X-ray Image of NGC 1068, Low Energy
This three-color low energy X-ray image of NGC 1068 (red = 0.4-0.6 keV, green = 0.6-0.8 keV, blue = 0.8-1.3 keV) shows gas rushing away from the the nucleus (bright white spot). The range of colors from blue to red corresponds to a high through low ionization of the atoms in the wind.
(Credit: NASA/CXC/MIT/UCSB/P.Ogle et al.)
Scale: Image is 30 arcsec per side.
This three-color low energy X-ray image of NGC 1068 (red = 0.4-0.6 keV, green = 0.6-0.8 keV, blue = 0.8-1.3 keV) shows gas rushing away from the the nucleus (bright white spot). The range of colors from blue to red corresponds to a high through low ionization of the atoms in the wind.
(Credit: NASA/CXC/MIT/UCSB/P.Ogle et al.)
Scale: Image is 30 arcsec per side.
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Chandra X-ray Image of NGC 1068, High Energy
This three-color high energy X-ray image (red =1.3-3 keV, green = 3-6 keV, blue = 6-8 keV) of NGC 1068 shows gas rushing away from the nucleus. The brightest point-like source may be the inner wall of the torus that is reflecting X-rays from the hidden nucleus.
(Credit: NASA/CXC/MIT/UCSB/P.Ogle et al.)
Scale: Image is 30 arcsec per side.
This three-color high energy X-ray image (red =1.3-3 keV, green = 3-6 keV, blue = 6-8 keV) of NGC 1068 shows gas rushing away from the nucleus. The brightest point-like source may be the inner wall of the torus that is reflecting X-rays from the hidden nucleus.
(Credit: NASA/CXC/MIT/UCSB/P.Ogle et al.)
Scale: Image is 30 arcsec per side.
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Wind from Accretion Disk around a Black Hole
This illustration depicts a massive black hole at the center of a galaxy. Around it is a swirling disk of gas, which gradually pours down into the black hole. As the gas falls inward, it heats up and glows brightly, getting hotter and hotter the closer it is to the event horizon. Some of the gas is blown away from the disk like steam from a kettle. As this gas streams off the disk, the intense radiation generated by the very hot gas near the event horizon forces the escaping gas into a cone and accelerates it to speeds as high as a tenth the speed of light.
(Illustration: NASA/CXC/M.Weiss)
This illustration depicts a massive black hole at the center of a galaxy. Around it is a swirling disk of gas, which gradually pours down into the black hole. As the gas falls inward, it heats up and glows brightly, getting hotter and hotter the closer it is to the event horizon. Some of the gas is blown away from the disk like steam from a kettle. As this gas streams off the disk, the intense radiation generated by the very hot gas near the event horizon forces the escaping gas into a cone and accelerates it to speeds as high as a tenth the speed of light.
(Illustration: NASA/CXC/M.Weiss)
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Illustration of Black Hole with Accretion Disk and Torus
An artist's conception shows a black hole surrounded by a disk of hot gas, and a large doughnut or torus of cooler gas and dust. The light blue ring on the back of the torus is due to the fluorescence of iron atoms excited by X-rays from the hot gas disk.
(Illustration: NASA/CXC/M.Weiss)
An artist's conception shows a black hole surrounded by a disk of hot gas, and a large doughnut or torus of cooler gas and dust. The light blue ring on the back of the torus is due to the fluorescence of iron atoms excited by X-rays from the hot gas disk.
(Illustration: NASA/CXC/M.Weiss)
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Return to NGC 1068 (09 Jul 03)
Revised: May 17, 2022