Distributed synthesis of chains with one-way biphotonic control

Yuri Ozhigov

arXiv:1802.09928·quant-ph·February 28, 2018·Quantum Inf. Comput.

Distributed synthesis of chains with one-way biphotonic control

Yuri Ozhigov

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Open Access

TL;DR

This paper demonstrates how entangled photon states can improve the distributed assembly of polymer chains at remote locations, achieving nearly 14% better quality through one-way biphotonic control.

Contribution

It introduces a novel method utilizing entangled photon states for synchronized distributed polymer chain assembly, showing significant quality improvement.

Findings

01

Entangled states improve assembly quality by nearly 14%.

02

Distributed control benefits from biphotonic entanglement.

03

The method enhances synchronization in remote processes.

Abstract

An example of a one-way distributed computation is given in which the use of entangled states of two photons to synchronize processes gives a benefit. The process of assembling polymer chains at two remote points is considered; the quality of the assembly is determined when they are superimposed on each other. The effect of using entangled states is almost 14 percents.

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Taxonomy

TopicsPhotonic and Optical Devices · Advanced Fluorescence Microscopy Techniques · Photonic Crystals and Applications