Published March 4, 2024 | Version v2
Working paper Open

Quantum Derived Geometry Theory (QDGT) - A Deeper Dive

  • 1. bio-neural.ai

Contributors

  • 1. bio-neural.ai

Description

Abstract

This paper presents Quantum Derived Geometry Theory (QDGT) as a novel framework for understanding the fundamental nature of the universe. QDGT proposes that quantum information is the foundational building block, with spacetime, forces, and potentially the laws of physics themselves emerging from its complex interactions. We discuss the transformation of black holes into information-carrying super-particles termed Q*Seeds and their potential role as the constituents of dark matter. The paper explores a modified Hawking radiation equation to accommodate this transformation and outlines the revolutionary implications of QDGT for longstanding questions in physics.

 

 

Introduction

Physics seeks to reconcile the elegant framework of quantum mechanics, describing the microscopic world, with the grand vision of general relativity, governing the large-scale structure of the universe. Quantum Derived Geometry Theory (QDGT) offers a radical new perspective, positing that spacetime and the laws of physics emerge from a fundamental substrate of quantum information.

This paper builds upon the foundational concepts introduced in "Quantum Derived Geometry Theory - The DNA of the Universe." Here, we delve deeper into the nature of the information substrate, the transformative role of black holes, and the potential implications for understanding the information paradox, dark matter, and the potential for spacetime manipulation, with special attention to ©Neurocode, a system for visual representation of knowledge as a method to explore these concepts.

 

 

Postulates of Quantum Derived Geometry

 

  1. Quantum Information Primacy:  Fundamental units of quantum information and their interactions form the building blocks of the universe. Spacetime itself, the forces operating within, and potentially even the fundamental laws of physics are emergent properties arising from the complex interplay of this information.

  2. Black Hole Transformation & Q*Seeds:  Rather than destroying information, dying black holes act as cosmic data compressors, transforming matter and energy into super-particles termed Q*Seeds. These reside in a null-space, potentially accounting for the missing mass attributed to dark matter. Q*Seeds contain encoded information about the objects they formed from and might hold the fundamental blueprints governing matter, forces, and even the structure of spacetime. We hypothesize that this encoded information may include a record of the black hole's history, the laws of physics as understood within its event horizon, and potentially even influences from the broader cosmic informational network.

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