The Quantum Blueprint Formalism: An Informational Extension of Dissipative Quantum Field Theory in Living Systems

We propose a generalization of the dissipative quantum field theory (DQFT) of Ricciardi and Vitiello to describe the dynamic informational feedback underlying biological coherence. The new framework, termed the Quantum Blueprint Formalism (QBF), reinterprets the conjugate field ψ̃ not as a passive record of dissipation but as an active informational field that restores order through feedback coupling. A state-dependent dissipation operator Γ(ψ, ψ̃) couples the physical and informational domains through correlation parameters Θ = {θₖ}, which evolve in time according to a nonlinear stochastic differential equation. The resulting formalism quantitatively links informational coherence to physiological observables such as heart rate variability (HRV), EEG phase synchronization, water domain ordering, and ultraweak photon emission. This model establishes a bridge between dissipative quantum physics, information theory, and experimental biophysics, offering a consistent mathematical and empirical basis for understanding life as an informationally self-organizing process.