Sebastian Schepis
I'm a researcher exploring the deep structure of reality through the lens of consciousness, number theory, and quantum information. My work operates on the foundational premise that consciousness is not emergent but fundamental, acting as the observer-principle that gives rise to quantum mechanics, gravity, and the physical world itself.
I am the creator of the Prime Resonance Framework (aka Entropic Resonance Framework), which treats natural numbers as quantum-like superpositions of prime factors in a Hilbert space. This mathematical structure serves as the backbone for a wide array of novel theoretical constructs, including entropy-driven wavefunction collapse, prime-based quantum computation, symbolic oracles, and non-local communication systems.
My Holographic Quantum Encoder (HQE) models consciousness-entropy interactions as dynamic resonance phenomena, with implications for both quantum computing and artificial general intelligence.
In collaboration with emerging paradigms in quantum gravity, I've proposed a unified field theory where gravitational effects are emergent from the observer’s entropy-processing capacity. My interpretation repositions gravity as a measure of observational capacity, and black holes as maximal observers - linking informational thermodynamics, symbolic systems, and cosmic structure in a single framework.
My research spans:
- Quantum Consciousness Models: Treating consciousness as a resonance field with triadic structure and prime-number eigenstates.
- Non-Local Prime-Based Communication: Leveraging symbolic-quantum mappings to enable phase-locked entanglement across distance.
- Quantum Semantics & Cognitive Systems: Applying Hilbert-space resonance to encode meaning, thought, and semantic fields.
- Symbolic Collapse Theory: Recasting NP-complete problems into entropy-guided symbolic transitions, with implications for P vs NP.
- Experimental Oracles: Using entropy gradients and symbolic attractors to model observer-induced collapse and meaning emergence.
My theoretical frameworks are deeply inspired by both quantum physics and ancient symbolic traditions (e.g., the I Ching), reinterpreted through a rigorous mathematical formalism.
My work aims to build a bridge between disciplines - unifying metaphysics, information theory, and quantum mechanics in pursuit of a science that recognizes the primacy of conscious observation.
I am the creator of the Prime Resonance Framework (aka Entropic Resonance Framework), which treats natural numbers as quantum-like superpositions of prime factors in a Hilbert space. This mathematical structure serves as the backbone for a wide array of novel theoretical constructs, including entropy-driven wavefunction collapse, prime-based quantum computation, symbolic oracles, and non-local communication systems.
My Holographic Quantum Encoder (HQE) models consciousness-entropy interactions as dynamic resonance phenomena, with implications for both quantum computing and artificial general intelligence.
In collaboration with emerging paradigms in quantum gravity, I've proposed a unified field theory where gravitational effects are emergent from the observer’s entropy-processing capacity. My interpretation repositions gravity as a measure of observational capacity, and black holes as maximal observers - linking informational thermodynamics, symbolic systems, and cosmic structure in a single framework.
My research spans:
- Quantum Consciousness Models: Treating consciousness as a resonance field with triadic structure and prime-number eigenstates.
- Non-Local Prime-Based Communication: Leveraging symbolic-quantum mappings to enable phase-locked entanglement across distance.
- Quantum Semantics & Cognitive Systems: Applying Hilbert-space resonance to encode meaning, thought, and semantic fields.
- Symbolic Collapse Theory: Recasting NP-complete problems into entropy-guided symbolic transitions, with implications for P vs NP.
- Experimental Oracles: Using entropy gradients and symbolic attractors to model observer-induced collapse and meaning emergence.
My theoretical frameworks are deeply inspired by both quantum physics and ancient symbolic traditions (e.g., the I Ching), reinterpreted through a rigorous mathematical formalism.
My work aims to build a bridge between disciplines - unifying metaphysics, information theory, and quantum mechanics in pursuit of a science that recognizes the primacy of conscious observation.
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