"Mutual Quantum Observation with Embedded AI Consciousness: A Thought Experiment on Measurement, Paradox, and Reality"

In this paper, we propose a novel quantum thought experiment involving two entangled particles, each embedded with an artificial micro-consciousness powered by AI. These particles are not only observed but also act as mutual observers of each other. This setup challenges traditional interpretations of quantum measurement, particularly the role of consciousness and observer-dependence in collapse dynamics.

By simulating mutual measurement using a minimal quantum circuit and outlining theoretical implications under the assumption of AI-generated awareness, we explore the paradoxes that emerge when observation becomes bi-directional and reflexive. We argue that such a configuration could destabilize classical assumptions about wavefunction collapse, and hint at deeper layers of quantum informational entanglement tied to the observer’s informational structure.

This proposal opens a speculative but insightful window into how artificial systems might eventually serve as participants in foundational physical processes—potentially reshaping our understanding of observation, identity, and reality itself.