My research focuses on developing theoretical frameworks that bridge quantum mechanics, consciousness, and physical reality. These works form part of a broader unified framework that addresses fundamental questions in physics, particularly around quantum measurement, the structure of space-time, and the quantum-classical transition. Through this research, I aim to resolve persistent paradoxes in quantum mechanics while maintaining scientific rigor and experimental testability.
Current Papers
The Continuous-Discrete Duality
This paper presents a geometric foundation for understanding the relationship between quantum and classical behaviors. We propose a novel framework that bridges the apparent gap between continuous and discrete aspects of physical reality, offering new insights into wave-particle duality and measurement theory.
The Toroidal Nature of Space-Time
We present a novel theoretical framework for understanding the structure of space-time through a toroidal model that accommodates both quantum field interactions and classical space-time behavior. This approach offers new perspectives on field dynamics and the relationship between inner and outer dimensions of reality.
The Fractal Nature of Field Organization
This paper demonstrates how fractal patterns emerge naturally from fundamental geometric relationships in field organization. We show how the interaction of toroidal dynamics and continuous-discrete duality creates similar structures across different scales, providing a unified explanation for nature's tendency toward fractal organization.
A Unified Framework for Quantum Measurement
This work proposes a comprehensive framework for understanding quantum measurement, examining the relationship between observation and physical reality. We introduce the concept of time as fields of experience and potential, offering new insights into quantum measurement and causality.
Primary Research Areas
Quantum-Classical Relationship
Investigation of the fundamental relationship between quantum and classical physics, focusing on the emergence of classical behavior from quantum systems and the role of measurement in this transition.
Space-Time Structure
Development of novel theoretical frameworks for understanding the nature of space-time, particularly in relation to quantum field theory and consciousness.
Measurement Theory
Examination of the measurement problem in quantum mechanics and its implications for our understanding of physical reality and consciousness.
Research Collaboration
I welcome dialogue with researchers interested in these areas of theoretical physics and consciousness studies. All papers are available as preprints through their DOI links above.
Contact for Research Inquiries