| Physicists Say Time Could Run Backward Inside Collapsing Neutron Stars |
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May 26, 2026
Physicists Say Time Could Run Backward Inside Collapsing Neutron Stars
Scientists from Durban University of Technology and the University of KwaZulu-Natal in South Africa recently explored the bizarre behavior of these ultra-dense cosmic objects, and the math led them somewhere unexpected: inside the collapse, the normal “arrow of time” may flip backward. Before anyone starts planning a trip through time, this isn’t something humans could ever witness firsthand. But according to the equations, the idea is mathematically possible under the extreme conditions found inside a collapsing neutron star. The research, published in the European Physical Journal C, focuses on entropy — the scientific concept often used to explain why time only moves forward. In everyday life, entropy always increases. Things naturally move from order to disorder. Think about dropping a glass on the floor. It shatters into pieces, but those pieces never magically reassemble themselves. Heat spreads out instead of concentrating itself back into one spot. That one-way movement is what gives us our sense of time moving forward. But neutron stars may play by different rules. When researchers modeled a collapsing neutron star, they found that entropy actually appeared to decrease as the collapse intensified. In physics terms, that’s essentially the equivalent of time running backward. Imagine squeezing toothpaste out of a tube and then watching it somehow slide perfectly back inside. Under normal physics, that shouldn’t happen. Yet inside these extreme cosmic environments, the equations suggest something surprisingly similar. So why would this happen? Scientists say it comes down to a battle between two types of entropy. Regular entropy spreads matter out and creates disorder, while gravitational entropy does the opposite — it pulls matter together into tighter, denser clumps. In places with unimaginably strong gravity, like neutron stars, gravity may become powerful enough to overpower the normal forward flow of entropy. And neutron stars are already some of the strangest objects in the universe. They’re formed when massive stars die and collapse in on themselves, leaving behind an incredibly dense core. A neutron star can pack more mass than the Sun into a sphere only a few miles wide. Their gravity is so intense that they behave in ways more similar to black holes than ordinary stars. The findings could also connect to one of the biggest mysteries in cosmology: the Big Bang and the origin of time itself. Scientists have long struggled to explain why the universe started in such a highly ordered state even though entropy naturally increases. One possibility is that certain extreme regions of the universe may locally reverse or balance entropy in ways we still don’t fully understand. The researchers aren’t claiming they’ve solved the mystery of time. Instead, they see this work as another important step toward understanding how gravity, spacetime, and entropy interact under the most extreme conditions imaginable. Still, the idea that time itself could reverse inside a collapsing star is enough to make anyone stop and think — even if only for a moment. Posted by Johnny Ice at 11:30 AM |
