Saturday, July 11, 2026
Science

Synthetic rotation brings black hole energy theory into lab, amplifying waves

More than half a century ago, Sir Roger Penrose envisioned a scenario in which energy could be extracted from a black hole spinning at extreme speeds. He proposed that a particle entering its ergosphere—a region of space dragged around by a rotating black hole—could split into two. One part could fa...

Synthetic rotation brings black hole energy theory into lab, amplifying waves
Image: Phys.org
More than half a century ago, Sir Roger Penrose envisioned a scenario in which energy could be extracted from a black hole spinning at extreme speeds. He proposed that a particle entering its ergosphere—a region of space dragged around by a rotating black hole—could split into two. One part could fall into the black hole while the other escaped carrying more energy than the original particle. Building on this theory, physicist Yakov Zel'dovich later predicted that a wave interacting with a sufficiently fast, rotating object could extract energy from it and become amplified.

Originally published at Phys.org

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