Universal Continuous Variable Quantum Computation in the Micromaser

Rob C. Wagner; Mark S. Everitt; Viv M. Kendon; Martin L. Jones

arXiv:1003.6054·quant-ph·August 17, 2010·UC

Universal Continuous Variable Quantum Computation in the Micromaser

Rob C. Wagner, Mark S. Everitt, Viv M. Kendon, Martin L. Jones

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TL;DR

This paper demonstrates that the micromaser can perform universal continuous variable quantum computation, providing a potential architecture for scalable quantum information processing with adaptable physical systems.

Contribution

It introduces a method to realize universal CVQC in the micromaser, expanding the possibilities for quantum computing architectures.

Findings

01

Micromaser can implement a universal set of CVQC operations.

02

The approach is adaptable to other physical systems.

03

Provides a theoretical foundation for micromaser-based quantum computing.

Abstract

We present universal continuous variable quantum computation (CVQC) in the micromaser. With a brief history as motivation we present the background theory and define universal CVQC. We then show how to generate a set of operations in the micromaser which can be used to achieve universal CVQC. It then follows that the micromaser is a potential architecture for CVQC but our proof is easily adaptable to other potential physical systems.

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