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.

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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