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CA Topic

Majorana Particle

September 4, 2025 en

Brief Context

Context Majorana particles are seen as a potential solution to the problem of decoherence in quantum computers, offering inherently stable and noise-resistant qubits. Majorana Particle Majorana particles, or Majorana fermions, are hypothesized particles that are their own antiparticles. Due to their self-antiparticle nature, they cannot carry an electric charge.

Source Content

Syllabus: GS3/ Science and Technology

Context

  • Majorana particles are seen as a potential solution to the problem of decoherence in quantum computers, offering inherently stable and noise-resistant qubits.

Majorana Particle

  • Majorana particles, or Majorana fermions, are hypothesized particles that are their own antiparticles.
    • Due to their self-antiparticle nature, they cannot carry an electric charge.
  • In 1937, physicist Ettore Majorana proposed the existence of the Majorana  Particle.
  • No fundamental Majorana particle has been directly found yet, but scientists have created quasiparticles in special superconducting materials that behave like Majoranas.

Significance 

  • Noise Resistance: Majorana modes allow quantum information to be stored nonlocally, with each qubit’s state split between two distant halves.
    • Local disturbances cannot easily destroy the encoded information, making them naturally resistant to decoherence.
  • Scalability: If experimentally realised, Majorana qubits could pave the way for simpler, more scalable quantum computers capable of solving problems beyond today’s reach.
What is a Quasiparticle?
– A quasiparticle is a concept used to describe how a group of particles interact in a system. 
– Quasiparticles are not actual particles, but rather a way to model the collective behavior of particles as if they were a single particle.
Example: Ripples in water are not particles themselves but behave like “waves” created by molecules moving together.
Fundamentals of Particles
– Particles are broadly classified as;
1. Fermions: These particles make up matter and have half-integer spins (e.g., electrons, protons, neutrons). 
2. Bosons: These particles mediate fundamental forces between matter, such as photons for electromagnetic force and gluons for the strong force. Bosons have integer spins.
– Fermions can be further categorized as:
1. Dirac Fermions: May or may not have mass but are distinct from their antiparticles.
2. Majorana Fermions: Fermions that are their own antiparticles (e.g., neutrinos are suspected Majorana fermions).

Source: TH