Loss-tolerant operations in parity-code linear optics quantum computing
A. J. F. Hayes, A. Gilchrist, T. C. Ralph
TL;DR
This paper presents a comprehensive encoding and manipulation scheme for linear optics quantum computing that emphasizes error correction, resource efficiency, and loss-tolerance, advancing the development of scalable optical quantum computers.
Contribution
It introduces a novel loss-tolerant architecture and scalable operations tailored for linear optics quantum computing, addressing key challenges in error correction and resource minimization.
Findings
Demonstrates a complete encoding scheme compatible with linear optics
Proposes a loss-tolerant architecture for improved fault tolerance
Outlines scalable operations for practical quantum computing implementations
Abstract
A heavy focus for optical quantum computing is the introduction of error-correction, and the minimisation of resource requirements. We detail a complete encoding and manipulation scheme designed for linear optics quantum computing, incorporating scalable operations and loss-tolerant architecture.
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