QT-Aware 1 : Mathematical Foundations for Observer-Dependent Quantum Feedback

This paper inaugurates the first of a three-part exploration into the Quantum Mechanics of Consciousness formulated as QT-Aware 1 , focusing on its mathematical foundations. Building upon von Neumann’s rigorous operator formalism, we reinterpret the Hilbert space framework as an informational architecture that accommodates observer-dependence, self-referential dynamics, and coherence structures.Rather than invoking new metaphysical assumptions, we extend standard quantum mechanics using density operators, spectral projectors, and feedback-based recursion to model consciousness as an emergent, mathematically expressible field. Measurement is treated as a projection operation within a self-correcting system, with entropy and coherence playing central roles in defining informational stability.We introduce recursive tensor dynamics, propose coherence-based attractors as generalized eigenstates of awareness, and validate these structures through formal stability criteria. By preserving mathematical integrity of quantum mechanics, this framework sets the foundation for extending quantum mechanics into domains of cognition, observation, and informational coherence, while remaining fully compatible with established frameworks of modern physics.