Three Essential Reasons Why Nature Chose Quantum Mechanics

TL;DR

This paper explores why quantum mechanics is fundamental to nature, emphasizing the role of probability amplitudes and demonstrating their advantages in error minimization and non-local correlations in code transfer experiments.

Contribution

It provides a conceptual explanation for the fundamental choice of quantum mechanics and experimentally demonstrates the benefits of probability amplitudes in information transfer.

Findings

Error in code transfer is minimized using quantum probability amplitudes

Error is independent of coding parameters in quantum transfer

Quantum transfer enables non-trivial, non-local correlations

Abstract

We discuss the reason why quantum mechanics is chosen as the most basic law of nature. Probability amplitude, which becomes a probability density after square it, is considered as one of the most essential ingredient of quantum mechanics. Code transfer experiments based on the probability amplitude is proved to be i) error of code transfer is minimum, ii) that error is independent of coding parameters and iii) non-trivial and non-local correlation is possible.