Title: Quantum Journal Club: Experimental realization of a concatenated Greenberger–Hor
Speaker: Xiuying Chang Tsinghua University
Time: 2014-05-29 15:00-2014-05-29 16:00
Venue: FIT 1-222

Abstract:

The Greenberger–Horne–Zeilinger (GHZ) states1 play a significant role in fundamental tests of quantum mechanics2 and are one of the central resources of quantum-enhanced highprecision metrology3, fault-tolerant quantum computing4 and distributed quantum networks5. However, in a noisy environment, entanglement becomes fragile as the particle number increases6–8. Recently, a concatenated GHZ (C-GHZ) state, which retains the advantages of conventional GHZ states but is more robust in a noisy environment, was proposed9. Here, we experimentally prepare a three-logical-qubit C-GHZ state. By characterizing the dynamics of entanglement quality of the C-GHZ state under simple collective noise, we demonstrate that the C-GHZ state is more robust than the conventional GHZ state. Our work provides an essential tool for quantumenhanced measurement and enables a new route to prepare and manipulate macroscopic entanglement. Our result is also useful for linear-optical quantum computation schemes whose building blocks are GHZ-type states.



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