Artículos Científicos

This paper introduces the Unified Informational Field Theory, a novel framework that describes the universe in terms of information. It proposes that the fundamental constituents of reality are not particles or fields, but informational states. This theory offers new perspectives on quantum mechanics and cosmology, suggesting a deep connection between the observer and the cosmos.

This paper introduces the Unified Theory of Gravitational Quantum Dynamics (UTGQD). It proposes that quantum phenomena, particularly the measurement problem, can be understood as a consequence of gravitational dynamics, where reality emerges from the geometry of spacetime rather than through a probabilistic collapse of a wave function.

This paper introduces Cognition Field Theory (CFT), proposing that consciousness is not an emergent property of complex computation but a fundamental field of the universe. We explore the mathematical formalism of this field and how it might interact with neural structures, acting as receivers and processors.

This work explores the concept of quantum teleology, the idea that quantum systems may exhibit goal-oriented behavior. We propose a model where this behavior arises from the topological properties of quantum information and discuss its implications for a novel Artificial General Intelligence (AGI) architecture.

This paper presents a quadratic law that accurately describes the masses of all fundamental fermions. This empirical formula provides a new perspective on the mass hierarchy problem and suggests a deeper underlying structure in the Standard Model of particle physics.