As astronomers ventured into the depths of a hungry black hole, their gaze unveiled a remarkable sight—a fierce surge of X-rays erupting from it, boasting a temperature a staggering 60,000 times hotter than the surface of our very own sun.
What are Quasars? Are They Hungary Black Hole?
Quasars are black holes that emit dazzling, energetic electromagnetic radiation jets from both sides when they consume the gases at the center of galaxies.
The team’s X-ray photograph of a quasar known as SMSS J114447.77-430859.3 (J1144), is the most brilliant such object to have been spotted in the last 9 billion years of cosmic history.
This amazing quasar radiates with intensity beyond our wildest dreams, outshining the sun’s brightness by an astounding factor of 100,000 billion. If you gaze upon the night sky amidst the celestial dance of Centaurus and Hydra, you may catch a glimpse of this celestial wonder, although it resides a mind-boggling distance of 9.6 billion light-years away.
Hungary Black Hole & Their Effects on Passing Stars:
The combined light from all the stars of the galaxies they are located in is frequently eclipsed by quasars like J1144 because they are so bright. They serve as instances of so-called active galactic nuclei (AGN), which are only discovered in the early cosmos and at great distances from Earth.
Astronomers may gain a thorough understanding of these potent cosmic occurrences, hungry black hole and the impact they have on their galaxy surroundings by studying the quasar.
Quasars are thought to be present in the early cosmos because galaxies at that time were richer in gas and dust, according to scientific theory. They had enough fuel to support dazzling emissions across nearly the entire electromagnetic spectrum, including low-energy radio, infrared, visible, ultraviolet, and high-energy X-ray wavelengths, thanks to their center black holes, which could be seen as a source of light.
Recent Research of NASA on Black Hole 2023
SkyMapper Southern Survey (SMSS) first observed J1144 in the visible spectrum in 2022. The team, which was also directed by Ph.D. candidate Zsofi Igo from the Max Planck Institute for Extraterrestrial Physics (MPE), combined observations from various space-based observatories to further investigate this finding.
These included the eROSITA instrument of the NASA Nuclear Spectroscopic Telescope Array (NuSTAR), the ESA XMM-Newton observatory, and the NASA Neil Gehrels Swift observatory.
By utilizing the amalgamation of data at our disposal, we were able to discern an astounding estimation regarding the temperature of the X-rays emanating from the quasars, indicating an astonishing value of approximately 630 million degrees Fahrenheit (350 million degrees Celsius). This is surprisingly startling 60,000 times hotter than the surface temperature of the sun.
What is the Largest Black Hole in 2023?
Additionally, the diligent researchers conducted estimations to unveil the mass of the black hole, ultimately revealing a remarkable finding—a colossal magnitude weighing in at around 10 billion times the mass of our beloved sun. In addition, given how swiftly it devours stuff, J1144’s supermassive black hole is growing at a pace of 100 suns every year. The gas that surrounds this black hole is not all going into it, though.
The researchers found that a little amount of gas is being blasted from the quasar in the form of incredibly strong winds that are supplying a significant amount of energy to the galaxy it is located in.
The scientists also found that J1144 has a characteristic that sets it apart from other quasars: Its X-ray emission changes over just a few Earth days. The fluctuation of its X-rays would typically be on a timeframe of months or even years for a quasar with a black hole this big.
“We were very surprised that no prior X-ray observatory has ever observed this source despite its extreme power,” Kammoun added.
“A new monitoring campaign of this source will start in June this year, which may reveal more surprises from this unique source.”
What is the rarest black hole in the universe?
At the heart of the supergiant elliptical galaxy Abell 1201, located 2.7 billion light years away from Earth, resides a cosmic behemoth. This black hole is of such immense size that it has earned the exceptionally rare classification of an “ultramassive black hole.”
What happens when a hungry black hole devours a star?
Approximately once every 10,000 years, a remarkable phenomenon known as a “tidal disruption event” occurs at the center of a galaxy. During this event, the supermassive black hole at the core tears apart a star that happens to pass by.
This dramatic occurrence of eating star by a hungry black hole happens in an instant, as the immense gravitational pull of the black hole draws in the stellar material, resulting in a powerful emission of radiation.