But if you've ever wondered exactly when it all might end, you may find it oddly comforting, or perhaps a bit unsettling, to know that someone has actually done the math. As it turns out, this cosmic finale might arrive sooner than scientists previously thought.
Don't worry, though — "sooner" still means a mind-bending 10 to the power of 78 years from now. That is a 1 followed by 78 zeros, which is unimaginably far into the future. However, in cosmic terms, this estimate is a dramatic advancement from the previous prediction of 10 to the power of 1,100 years, made by Falcke and his team in 2023.
The team's new calculations focus on predicting when the universe's most enduring celestial objects — the glowing remnants of dead stars such as white dwarfs and neutron stars — will ultimately fade away.
This gradual decay is driven by Hawking radiation, a concept proposed by physicist Stephen Hawking in the 1970s. The theory suggests a peculiar process occurs near the event horizon — the point of no return — around black holes. Normally, virtual pairs of particles are constantly created by what are known as quantum fluctuations. These particle pairs pop in and out of existence, rapidly annihilating each other. Near a black hole's event horizon, however, the intense gravitational field prevents such annihilation. Instead, the pair is separated: one particle, one carrying negative energy, falls into the black hole, reducing its mass, while the other escapes into space.
Over incredibly long timescales, Hawking's theory suggests this process causes the black hole to slowly evaporate, eventually vanishing.
Source: www.space.com
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