Spin-statistics theorem in the context of "Fermion"

⭐ In the context of Fermions, the spin-statistics theorem specifically categorizes particles based on what fundamental property to determine their statistical behavior?

The spin-statistics theorem directly links a particle's spin to its statistical properties; half-integer spins correspond to fermions following Fermi-Dirac statistics, while integer spins correspond to bosons following Bose-Einstein statistics.

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⭐ Core Definition: Spin-statistics theorem

The spin–statistics theorem proves that the observed relationship between the intrinsic spin of a particle (angular momentum not due to the orbital motion) and the quantum particle statistics of collections of such particles is a consequence of the mathematics of quantum mechanics.

According to the theorem, the many-body wave function for elementary particles with integer spin (bosons) is symmetric under the exchange of any two particles, whereas for particles with half-integer spin (fermions), the wave function is antisymmetric under such an exchange. A consequence of the theorem is that non-interacting particles with integer spin obey Bose–Einstein statistics, while those with half-integer spin obey Fermi–Dirac statistics.

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