Difference between revisions of "TFNR - Quantum Information"

Revision as of 20:40, 11 January 2025

Quantum information is defined as "information about the state of a quantum system". Developed by quantum mechanics (as well as communication, atomic physics and relativity, computer science and mathematics, cryptography and information theory), it is the subject of study of quantum information theory. It is information from matter on a microscopic scale.

As stated by the uncertainty principle, non-commutative quantum observables cannot be measured simultaneously with infinite precision. A quantum state can never provide definitive information about such observables. Quantum states, and the results of their observations / measurements, can / must be expressed in probabilistic, therefore non-deterministic, terms. The subject of quantum information science is the extraction of information from the quantum properties of the states of quantum objects.

Without going into this complex and extremely broad topic, let's say a few important things that emerge from the peculiar vision proposed within our evolutionary model. We will return to these themes in the next chapter precisely in relation to the nature and dynamics of Information Structures, especially the Vortices / Particles, Waves and Interactions that make up Ordinary Matter (visible) and the two forms of Radiation that we call Gravitational Waves and Electromagnetic Waves.

Superposition

Measurement

Collapse of the wave function

Entanglement

Links to the tables of contents of TFNR Paper

• Go to the contents list of the paper "The Fundamental Nature of Reality"

• Go to Chapter 2 "A first look"