I am an independent researcher developing theoretical frameworks at the intersection of quantum physics, informational dynamics, and complex cognitive systems.
My work explores the hypothesis that information may constitute the most fundamental descriptive layer of reality, with physical phenomena emerging as structured regimes of informational accessibility. Within this perspective, I investigate quantum measurement processes, black-hole informational horizons, symmetry breaking in interference systems, and the emergence of coherent behavior in cognitive and artificial agents.
My research is based on a recursive, model-driven methodology gro…
I am an independent researcher developing theoretical frameworks at the intersection of quantum physics, informational dynamics, and complex cognitive systems.
My work explores the hypothesis that information may constitute the most fundamental descriptive layer of reality, with physical phenomena emerging as structured regimes of informational accessibility. Within this perspective, I investigate quantum measurement processes, black-hole informational horizons, symmetry breaking in interference systems, and the emergence of coherent behavior in cognitive and artificial agents.
My research is based on a recursive, model-driven methodology grounded in multi-level abstraction and cross-domain structural mapping. This approach focuses on identifying invariant relational patterns across physical, informational, and cognitive domains, with the aim of constructing unified frameworks that are internally consistent, formally expressible, and empirically constrained.
Although developed outside traditional academic pathways, my work is explicitly oriented toward falsifiability, formal coherence, and conceptual minimality. Rather than proposing interpretative narratives, I aim to define structural conditions under which different domains of phenomena can be described within a common informational framework.
Core research areas include:
informational state dynamics
quantum measurement and mode transitions
non-linear informational symmetries
observer-dependent physical frameworks
black-hole information models
cognitive and artificial system modeling
computational psychopathology (CAPE)
quantum–cognitive correlations
I publish my work on open scientific platforms such as Zenodo and Open Science Framework, with a focus on transparency, accessibility, and interdisciplinary exchange.
I am open to collaboration, critical discussion, and engagement with researchers working in quantum theory, information science, cognitive modeling, and advanced AI systems.
My research process involves sustained high-density conceptual iteration, enabling the emergence of non-trivial correspondences between domains that are typically treated as independent, and supporting the progressive formalization of these correspondences into testable theoretical structures.