Quasi-Chaotic Oscillators Based on Modular Quantum Circuits

TL;DR

This paper introduces a quantum modular circuit-based quasi-chaotic oscillator, demonstrating potential for fast, noise-like encryption schemes through quantum parallelism and initial experimental validation.

Contribution

It presents the first implementation of a quasi-chaotic oscillator using quantum modular addition and multiplication, advancing quantum cryptography techniques.

Findings

Quantum circuits exhibit pseudo-random, noise-like behavior.

Quantum parallel processing enables fast encryption schemes.

Experimental results confirm the oscillator's desired behavior.

Abstract

Digital circuits based on residue number systems have been considered to produce a pseudo-random behavior. The present work is an initial step towards the complete implementation of those systems for similar applications using quantum technology. We propose the implementation of a quasi-chaotic oscillator based on quantum modular addition and multiplication and we prove that quantum computing allows the parallel processing of data, paving the way for a fast and robust multi-channel encryption/decryption scheme. The resulting structure is assessed by several experiments in order to ascertain the desired noise-like behavior.