NASA ’s Goddard Space Flight Center yield us a peek at the working of a black hole — or at least a model of one . This supercomputer simulation is helping astronomers better understand how go - ray traveling around a black yap .
This inquiry is being lead by NASA astrophysicist Jeremy Schnittman , and include astronomer from Johns Hopkins and the Rochester Institute of Technology . This animation shows the inner zone of the accumulation disk of a stellar - mass black pickle as accelerator pedal heat up up to 20 million degrees F spirals toward the hole . The simulation reproduces XTC - ray feature of speech that have been keep an eye on in smuggled holes , and allows researchers to use the available data on black mess to track the emission and absorption of 10 - rays :
The new cogitation involve a detailed computer pretending that simultaneously tracked the fluid , electrical and charismatic property of the gas while also taking into account Einstein ’s hypothesis of Einstein’s theory of relativity . Using this information , the scientists develop shaft to cross how X - rays were give out , absorbed , and scattered in and around the disk .
The study demonstrates for the first sentence a verbatim connection between magnetized turbulency in the disk , the formation of a billion - point Saint Ulmo’s light above and below the disk , and the yield of grueling hug drug - shaft around an actively “ feeding ” black kettle of fish .
you’re able to read more about the project onthe YouTube video page .
[ viaIt ’s Okay to be chic ]
AstronomyAstrophysicsNASAScienceSimulationSpace
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