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According to our current understanding in particle physics, every subatomic particle is associated with a corresponding quantum field. The concept of quantum fields forms the foundation of the Standard Model, which is the prevailing framework describing the known elementary particles and their interactions.

In the Standard Model, particles are viewed as excitations or quanta of their respective quantum fields. For example, the electron is associated with the electron field, the quarks with quark fields, and the photon with the electromagnetic field. These fields permeate all of spacetime, and particles are considered localized disturbances or excitations within their respective fields.

The Higgs boson and the Higgs field are part of this framework as well. The Higgs field is a scalar field that is postulated to exist throughout the universe. It interacts with certain particles, such as the W and Z bosons, giving them mass. The Higgs boson is an excitation of the Higgs field that was discovered at the Large Hadron Collider in 2012.

While not all particles have the same interactions or dependence on their corresponding fields, the general idea is that each particle in the Standard Model corresponds to a specific quantum field. These fields are interconnected and collectively govern the behavior and interactions of particles in the universe.

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