A team of physicists has created the first laboratory analog of the “black hole bomb,” a theoretical concept developed by physicists in the 1970s. This device, named after its effect on nearby particles, simulates the amplification of energy using magnetic fields.
The black hole bomb concept involves rotating an object, such as a cylinder, inside layers of coils that generate magnetic fields at controlled speeds. When the cylinder rotates faster than the magnetic field, the magnetic field is amplified, while slowing down further reduces its strength.
Researchers have successfully replicated this phenomenon in their experiment, using a rotating aluminum cylinder within coils generating magnetic fields. The team’s findings satisfy long-held theories on spontaneous generation and black hole bombs, demonstrating an amplification effect based on decades-old concepts.
This laboratory analog provides a unique opportunity to study the properties of extreme objects like black holes without direct access. Further development and testing are necessary to explore potential practical applications, but this experiment marks a significant step towards understanding the physics behind these gravitationally intense phenomena.
Source: https://www.sciencealert.com/scientists-build-first-ever-black-hole-bomb-analog