Yes, particles are often associated with fields in the framework of quantum field theory, which is the theoretical framework used to describe the behavior of particles and their interactions. In quantum field theory, particles are considered as excitations or quanta of their corresponding fields.
According to this framework, each elementary particle is associated with a specific quantum field that permeates all of space. These fields exist everywhere, and particles are considered localized disturbances or excitations in these fields. For example, the electromagnetic field is associated with photons, the quanta of electromagnetic radiation, while the Higgs field is associated with the Higgs Boson.
Fields are described by mathematical equations, and the values of these fields at different points in space and time determine the properties and behavior of the particles associated with them. The interaction between particles is also mediated by the exchange of other particles or quanta of their corresponding fields.
Quantum field theory provides a powerful and successful framework for understanding the behavior of particles and their interactions at the microscopic level. It has been extensively tested and verified by experiments, and it forms the basis of the Standard Model of particle physics.