Physics:Quantum Fock space

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Fock space as sectors with different particle numbers connected by creation and annihilation operators.

Quantum Fock space is a Hilbert-space construction used to describe systems with a variable number of particles. It is built as a direct sum of sectors containing zero particles, one particle, two particles, and so on.[1]

Fock space is central to quantum field theory, many-body physics, and quantum optics because particles can be created and destroyed. It provides the natural setting for creation and annihilation operators.

Particle-number sectors

The zero-particle sector is the vacuum state. Applying a creation operator moves the system into a sector with one more excitation, while an annihilation operator lowers the particle number when possible.

For bosons, multiple particles can occupy the same mode. For fermions, occupation is restricted by antisymmetry and the Pauli exclusion principle. This makes Fock space useful for both radiation fields and electron systems.

Uses

In quantum optics, Fock states describe definite photon numbers. In condensed matter, the same formalism describes electrons, phonons, quasiparticles, and collective excitations.

Fock space is also the language behind perturbative field theory, scattering calculations, and many-particle Hamiltonians.

See also

References

  1. "Fock space". Wikipedia. https://en.wikipedia.org/wiki/Fock_space. 


Author: Harold Foppele


Source attribution: Physics:Quantum Fock space

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