Experimental demonstration of topological error correction
ORAL
Abstract
Scalable quantum computing can only be achieved if qubits are manipulated fault-tolerantly. Topological error correction---a novel method which combines topological quantum computing and quantum error correction---possesses the highest known tolerable error rate for a local architecture. This scheme makes use of cluster states with topological properties and requires only nearest-neighbor interactions. Here we report the first experimental demonstration of topological error correction with an eight-photon cluster state. It is shown that a correlation can be protected against a single error on any qubit, and when all qubits are simultaneously subjected to errors with equal probability, the effective error rate can be significantly reduced. This demonstrates the viability of topological error correction. Our work represents the first experimental effort to achieve fault-tolerant quantum information processing by exploring the topological properties of quantum states.
*This work has been supported by the NNSF of China, the CAS, the NFRP(2011CB921300) and NSERC.
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