Noise Thresholds for Optical Quantum Computers
- 17 January 2006
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 96 (2), 020501
- https://doi.org/10.1103/physrevlett.96.020501
Abstract
In this Letter we numerically investigate the fault-tolerant threshold for optical cluster-state quantum computing. We allow both photon loss noise and depolarizing noise (as a general proxy for all local noise), and obtain a threshold region of allowed pairs of values for the two types of noise. Roughly speaking, our results show that scalable optical quantum computing is possible for photon loss probabilities , and for depolarization probabilities .
Keywords
All Related Versions
This publication has 15 references indexed in Scilit:
- Resource-Efficient Linear Optical Quantum ComputationPhysical Review Letters, 2005
- Experimental one-way quantum computingNature, 2005
- Experimental Demonstration of a Nondestructive Controlled-NOT Quantum Gate for Two Independent Photon QubitsPhysical Review Letters, 2005
- Optical Quantum Computation Using Cluster StatesPhysical Review Letters, 2004
- Experimental Nonlinear Sign Shift for Linear Optics Quantum ComputationPhysical Review Letters, 2004
- Demonstration of an all-optical quantum controlled-NOT gateNature, 2003
- Experimental controlled-NOT logic gate for single photons in the coincidence basisPhysical Review A, 2003
- Deterministic Linear Optics Quantum Computation with Single Photon QubitsPhysical Review Letters, 2003
- A One-Way Quantum ComputerPhysical Review Letters, 2001
- A scheme for efficient quantum computation with linear opticsNature, 2001