Majorana equation
The Majorana equation describes a type of particle known as a Majorana fermion, which is special because it is its own antiparticle. This means that, unlike most particles which have corresponding opposite counterparts, a Majorana fermion is identical to its antimatter twin. This characteristic has implications in particle physics and quantum computing, particularly in the pursuit of stable qubits for quantum computers. Proposed by Italian physicist Ettore Majorana in the 1930s, these particles could help us understand deeper aspects of the universe and advance technology that relies on quantum mechanics.
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The Majorana Equation is a theoretical framework in quantum mechanics that describes particles known as Majorana fermions. Unlike regular particles, which have distinct forms of matter and antimatter, Majorana fermions are unique because they can be their own antiparticles. Proposed by physicist Ettore Majorana in the 1930s, this concept has implications in fields like particle physics and quantum computing. Majorana fermions could help build more stable, fault-tolerant qubits for quantum computers, offering a potential pathway to advanced technologies that could revolutionize computing and our understanding of the universe.