Groundbreaking Study Reveals Electron Fractionation in Graphene

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A recent study at MIT has uncovered that when electrons are confined to a two-dimensional plane, such as graphene, they can split into fractions of a whole, challenging conventional physics theories.

The research focused on the behavior of electrons in graphene placed in a strong magnetic field. Through advanced techniques, the scientists were able to observe electrons acting as if they were a fraction of an electron, a phenomenon known as fractional quantum Hall effect.

This groundbreaking discovery reveals a new aspect of quantum physics that defies classic laws, opening up possibilities for further exploration in the field of condensed matter physics and quantum computing.


According to a recent MIT study, electrons can transform into fractional particles when confined to a two-dimensional plane, such as graphene. This finding challenges traditional physics principles and sheds light on the intriguing behavior of electrons in unique conditions. The research delved into how electrons interact in graphene under intense magnetic fields, unveiling a phenomenon where electrons exhibit fractional characteristics, termed fractional quantum Hall effect. By observing this unexpected behavior, scientists have unearthed a novel aspect of quantum mechanics that defies conventional theories, paving the way for innovative insights in condensed matter physics and quantum computing.

Read the full story by: MIT News