Abstract
This paper introduces a new theoretical framework where quantum information is proposed as the fundamental building block of the universe. It postulates that interactions at the quantum level encode information that shapes the emergence of spacetime. Analogous to DNA encoding the blueprint for biological life, quantum information may contain the essential instructions for the structure and behavior of the universe. This information isn't merely abstract but has a potential physical manifestation within the universe itself. The theory uniquely proposes that the death of black holes leads to a transformation of information into super-particles, forming the basis of what we perceive as dark matter. These particles act as a universal blueprint – the "DNA of the universe." We'll discuss potential implications for resolving the information paradox and avenues for experimental investigation.
Introduction
Biological organisms are built from the instructions encoded within their DNA. This genetic blueprint guides their development, form, and function. Could a similar principle operate at the cosmic level? Current understanding of physics faces limitations in reconciling quantum mechanics and the large-scale structure of spacetime described by general relativity. This paper proposes that quantum information, rather than spacetime, serves as the fundamental substrate from which our perceived reality emerges.