A deep understanding of the mechanisms behind chaos generation in Bohmian trajectories is essential for addressing a fundamental problem in Bohmian Quantum Mechanics (BQM): the dynamical origin of Born’s Rule (BR). BQM is a well-known interpretation of Quantum Mechanics in which quantum particles follow deterministic trajectories governed by the so-called Bohmian equations of motion. BQM provides deep insights into quantum phenomena from both theoretical and experimental perspectives. It is a highly nonlocal quantum theory, where quantum entanglement (QE) plays a central role in the evolution of Bohmian trajectories. While BR is postulated as an axiom in standard quantum theory, in BQM one can, in principle, begin with an initial particle distribution that does not satisfy BR. This raises a critical question: is BR dynamically accessible from arbitrary initial conditions, and if so, what mechanisms govern this process?…