Physics / Massive Black Holes Shown to Act Like Quantum Particles

"Physicists are using quantum math to understand what happens when black holes collide. In a surprise, they’ve shown that a single particle can describe a collision’s entire gravitational wave."

ttps://www.quantamagazine.org/massive-black-holes-shown-to-act-like-quantum-particles-20220329/

This is what Nassim Haramein proposed and modelled 5 to 10 years now...

"When two black holes collide, the titanic crash ripples out through the very fabric of the cosmos. Physicists have used Albert Einstein’s theory of gravity to predict the rough contours of these gravitational waves as they pass through Earth, and wave after wave has been confirmed by the LIGO and Virgo gravitational-wave detectors. But physicists are starting to flounder as they attempt to use Einstein’s thorny equations to extract ultra-precise shapes of all possible reverberations. These currently unknowable details will be essential to fully understand the fine ripples that next-generation observatories should pick up."

"Relief, however, may be coming from a seemingly unlikely direction.

Over the past few years, physicists specializing in the arcane behavior of quantum particles have turned their mathematical machinery toward black holes, which, at a distance, resemble particles. Several groups have recently made a surprising finding. They have shown that the behavior of a gravitational (or electromagnetic) wave can be fully known through the actions of just one of its countless particles, as if we could learn the precise silhouette of a tsunami after examining a single water molecule."

“I would not have thought it possible, and I’m still having a little bit of trouble wrapping my head around it,” said Radu Roiban, a theoretical physicist at Pennsylvania State University who was not involved in the research.

"The results could help future researchers interpret the sharper quivers in space-time that future observatories will record. They also mark the next step in understanding how theories of quantum particles capture events taking place at our larger level of reality."

“What’s the precise connection between these quantum ideas and the real world? That’s what [their research] is about,” said Zvi Bern, a theoretical particle physicist at the Bhaumik Institute for Theoretical Physics at the University of California, Los Angeles. “It [provides] a much better understanding of that than we had before.”