Post by Andrei Tchentchik on Oct 21, 2020 16:19:32 GMT 2
(.#532).- Super-massive black hole, illustrations.
Super-massive black hole, illustrations :
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Super-massive black hole, illustration
X-ray observations have revealed the structures surrounding this super-massive black hole, which is at the core of a distant active galaxy. This galaxy (known as 1H0707-495) is partially obscured from view, but can be observed using radiation that penetrates the intervening clouds of gas and dust. A black hole is formed when a massive object collapses under the force of its own gravity, increasing the gravitational pull to the point where, beyond a boundary known as the event horizon, nothing, not even light, can escape. Super-massive black holes are much larger and are typically found at the centre of galaxies. Image published in 2009.
Source name:
SCIENCE SOURCE
Unique identifier:
SS21580729
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Jets from a galactic super-massive black hole :
Jets from a galactic super-massive black hole, illustration.
This super-massive black hole, at the centre of a bright spiral galaxy, is powering high-energy jets emanating along the galactic axis. A black hole is formed when a massive object collapses under the force of its own gravity, increasing the gravitational pull to the point where, beyond a boundary known as the event horizon, nothing, not even light, can escape. Super-massive black holes are much larger and are typically found at the centre of galaxies. Image published in 2016.
Source name:
SCIENCE SOURCE
Unique identifier:
SS21580723
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Super-massive black hole with ultrafast winds, illustration :
Super-massive black hole with ultrafast winds, illustration.
X-ray emissions are shown emanating from the inner region (pink) and ultrafast winds are streaming from the surrounding disc (purple). A black hole is formed when a massive object collapses under the force of its own gravity, increasing the gravitational pull to the point where, beyond a boundary known as the event horizon, nothing, not even light, can escape. Super-massive black holes are much larger and are typically found at the centre of galaxies.
Source name:
SCIENCE SOURCE
Unique identifier:
SS21580709
\\\\\\\\\\\\\\\\\\\\0////////////////////
F I N .
Super-massive black hole, illustrations :
\\\\\\\\\\\\\\\\\\\\0////////////////////
Super-massive black hole, illustration
X-ray observations have revealed the structures surrounding this super-massive black hole, which is at the core of a distant active galaxy. This galaxy (known as 1H0707-495) is partially obscured from view, but can be observed using radiation that penetrates the intervening clouds of gas and dust. A black hole is formed when a massive object collapses under the force of its own gravity, increasing the gravitational pull to the point where, beyond a boundary known as the event horizon, nothing, not even light, can escape. Super-massive black holes are much larger and are typically found at the centre of galaxies. Image published in 2009.
Source name:
SCIENCE SOURCE
Unique identifier:
SS21580729
\\\\\\\\\\\\\\\\\\\\0////////////////////
Jets from a galactic super-massive black hole :
Jets from a galactic super-massive black hole, illustration.
This super-massive black hole, at the centre of a bright spiral galaxy, is powering high-energy jets emanating along the galactic axis. A black hole is formed when a massive object collapses under the force of its own gravity, increasing the gravitational pull to the point where, beyond a boundary known as the event horizon, nothing, not even light, can escape. Super-massive black holes are much larger and are typically found at the centre of galaxies. Image published in 2016.
Source name:
SCIENCE SOURCE
Unique identifier:
SS21580723
\\\\\\\\\\\\\\\\\\\\0////////////////////
Super-massive black hole with ultrafast winds, illustration :
Super-massive black hole with ultrafast winds, illustration.
X-ray emissions are shown emanating from the inner region (pink) and ultrafast winds are streaming from the surrounding disc (purple). A black hole is formed when a massive object collapses under the force of its own gravity, increasing the gravitational pull to the point where, beyond a boundary known as the event horizon, nothing, not even light, can escape. Super-massive black holes are much larger and are typically found at the centre of galaxies.
Source name:
SCIENCE SOURCE
Unique identifier:
SS21580709
\\\\\\\\\\\\\\\\\\\\0////////////////////
F I N .
