Experimental demonstration of a hyper-entangled ten-qubit Schrödinger cat state

Date: 0000-00-00
Authors Wei-Bo Gao, Chao-Yang Lu, Xing-Can Yao, Ping Xu, Otfried Gühne, Alexander Goebel, Yu-Ao Chen, Cheng-Zhi Peng, Zeng-Bing Chen & Jian-Wei Pan
Journal No. Nature Physics 6, 331 - 335 (2010)
Keywords qubit hyper-entangled
Abstract Coherent manipulation of a large number of qubits and the generation of entangled states between them has been an important goal and benchmark in quantum information science, leading to various applications such as measurement-based quantum computing1 and high-precision quantum metrology2. However, the experimental preparation of multiparticle entanglement remains challenging. Using atoms3, 4, entangled states of up to eight qubits have been created, and up to six photons5 have been entangled. Here, by exploiting both the photons’ polarization and momentum degrees of freedom, we experimentally generate hyper-entangled six-, eight- and ten-qubit Schrödinger cat states with verified genuine multi-qubit entanglement. We also demonstrate super-resolving phase measurements enhanced by entanglement, with a precision to beat the standard quantum limit. Modifications of the experimental set-up would enable the generation of other graph states up to ten qubits. Our method offers a way of expanding the effective Hilbert space and should provide a versatile test-bed for various quantum applications.