Quantum Entanglement in Time for a Distributed Ledger

TL;DR

This paper proposes a Quantum Distributed Ledger (QDL) that combines Distributed Ledger Technology with Quantum Information Technologies to enhance security against quantum attacks while maintaining decentralization.

Contribution

It introduces a novel integration of quantum entanglement in time with DLT to create a more secure, quantum-resistant distributed ledger system.

Findings

QDL offers increased security against quantum attacks.

Quantum entanglement in time enhances data integrity.

Decentralization is preserved with quantum security features.

Abstract

Distributed Ledger Technology (DLT) is a shared, synchronized and replicated data spread spatially and temporally with no centralized administration and/or storage. Each node has a complete and identical set of records. All participants contribute to building and maintaining the distributed ledger. Current DLT technologies fall into two broad categories. Those that use block-chains such as in Bitcoin or Ethereum, and newer approaches which reduce computational loads for verification. All current approaches though difficult to crack can be vulnerable to quantum algorithms using Quantum Information Technologies (QIT). This effort joins the 2 technologies, constructing a Quantum Distributed Ledger (QDL) which provides a higher level of security using QIT and a decentralized data depository using DLT. This enhanced security prevents middleman attacks with quantum computers yet retains the advantages of a decentralized ledger of data.