Kinship and antagonism of chains in entangled biphoton controlled synthesis

TL;DR

This paper explores how entangled biphotons can be used to control the synthesis of polymer chains, revealing quantum advantages in kinship differentiation and potential insights into biopolymer formation.

Contribution

It introduces a novel quantum control method using entangled biphotons to distinguish kinship in polymer chains, surpassing classical techniques.

Findings

Entangled biphotons differentiate kinship in polymer chains.

Quantum control surpasses classical in kinship measurement.

Violation of Bell inequality demonstrates quantum superiority.

Abstract

The synthesis of 3 and 4 abstract polymer chains divided into two sexes is considered, where the degree of kinship of the chains is determined by their overlap. It is shown that the use of some types of entangled bi-photon in one-way control gives a difference in the degree of kinship between the legal and nonlegal pairs that is unattainable with classical control. This example demonstrates the quantum superiority in distributed computing, coming from the violation of the Bell inequality. It may be of interest for revealing the quantum mechanisms of synthesis of real biopolymers with directional properties.