The type of entanglement that particles can exhibit is determined by the specific interaction they undergo and the quantum system they belong to. The properties of entanglement are governed by the laws of quantum mechanics.
The process of entanglement typically occurs when two or more particles interact in such a way that their quantum states become correlated. The nature of this correlation depends on the specific details of the interaction. For example, if two particles interact and their total angular momentum must be conserved, they can become entangled in a state where their individual spins are oppositely aligned.
The types of entanglement that particles can exhibit are diverse and can involve various quantum properties, such as spin, position, momentum, or energy. The specific entangled states that particles can be in are determined by the laws of quantum mechanics and the principles that govern the particular physical system in question.
It's worth noting that entanglement is not limited to pairs of particles. Multiple particles can also become entangled, resulting in complex entangled states involving multiple quantum systems. The types of entanglement that can arise in such cases are influenced by the interactions and the quantum properties of the particles involved.
In summary, the type of entanglement particles are bound by is determined by the specific interaction they undergo and the quantum properties and laws that govern the system they are a part of.