ExchangeHole - crowlogic/arb4j GitHub Wiki

In the context of Fermi metals, the "exchange hole" concept emerges from the quantum mechanical principle of exchange interaction, which is a consequence of the Pauli Exclusion Principle.

In a Fermi gas or Fermi liquid (like a metal), the electrons are fermions, meaning that no two electrons can occupy the exact same quantum state simultaneously. The quantum states of electrons are determined by their quantum numbers: principal quantum number, angular momentum quantum number, magnetic quantum number, and spin quantum number.

In quantum mechanical terms, the exclusion of electrons from occupying the same state results in a correlation in the positions of electrons. If one electron is found at a particular location, the likelihood of finding another electron nearby is reduced, creating a "hole" around each electron. This is known as the "exchange hole" or "exchange correlation hole". It is the result of the antisymmetrization of the wavefunction for identical fermions (the wavefunction changes sign if the positions of two electrons are swapped, resulting in decreased probability of finding electrons in the same location).

In Fermi metals, this effect is responsible for the emergence of various many-body effects, contributing to the complexity of their behavior under various conditions. Exchange interactions are a central aspect of many-body physics, and understanding them is key to understanding the properties of Fermi metals and other many-body systems.