This method is based on creating a magnetic field around a rotating sphere, which causes the light beam to bend. Scientists explained that this phenomenon is similar to the Magnus effect in hydrodynamics, when a rotating body moves perpendicular to the flow of liquid or gas.
The study showed that when the sphere rotates, light rays begin to bend, allowing it to be used in various fields. For example, “photonic tweezers” to create advanced optical instruments such as controlled resonators and gyroscopes, as well as laboratory simulations of strong magnetic fields.
The results of the study may also be valid in astronomy. Given that black holes and neutron stars have strong magnetic fields and rotate, this phenomenon can affect observations of space objects and change the understanding of them.
Source: Ferra

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