Hybrid Quantum Processors: Molecular Ensembles as Quantum Memory for Solid State Circuits

P. Rabl; D. DeMille; J.M. Doyle; M.D. Lukin; R. J. Schoelkopf; P. Zoller

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Hybrid Quantum Processors: Molecular Ensembles as Quantum Memory for Solid State Circuits

机译：混合量子处理器：分子集成作为固态电路的量子存储器

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摘要

We investigate a hybrid quantum circuit where ensembles of cold polar molecules serve as long-lived quantum memories and optical interfaces for solid state quantum processors. The quantum memory realized by collective spin states (ensemble qubit) is coupled to a high-Q stripline cavity via microwave Raman processes. We show that, for convenient trap-surface distances of a few μm, strong coupling between the cavity and ensemble qubit can be achieved. We discuss basic quantum information protocols, including a swap from the cavity photon bus to the molecular quantum memory, and a deterministic two qubit gate. Finally, we investigate coherence properties of molecular ensemble quantum bits.

机译：我们研究了一种混合量子电路，其中冷极性分子的集合充当了长寿命量子存储器和固态量子处理器的光学接口。由集体自旋态（整体量子位）实现的量子存储器通过微波拉曼过程耦合到高Q带状线腔。我们表明，对于几微米的便捷陷阱表面距离，可以实现腔与整体量子位之间的强耦合。我们讨论了基本的量子信息协议，包括从腔体光子总线到分子量子存储器的交换，以及确定性的两个量子位门。最后，我们研究了分子整体量子位的相干特性。

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来源
《Physical review letters》 |2006年第3期|p.033003.1-033003.4|共4页
作者
P. Rabl; D. DeMille; J.M. Doyle; M.D. Lukin; R. J. Schoelkopf; P. Zoller;
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作者单位

Institute for Theoretical Physics, University of Innsbruck, and Institute for Quantum Optics and Quantum Information of the Austrian Academy of Sciences, A-6020 Innsbruck, Austria;

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原文格式 PDF
正文语种 eng
中图分类物理学;
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optical cooling of molecules; trapping; quantum computation; nonclassical states of the electromagnetic field; including entangled photon states; quantum state engineering and measurements; josephson devices;

机译：分子的光学冷却俘获量子计算电磁场的非经典状态包括纠缠的光子态;量子态工程和测量;约瑟夫逊器件;

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7. Hybrid Quantum Processors: molecular ensembles as quantum memory for solid state circuits [O] . Rabl, P, De Mille, D P, Doyle, J M, 2006

机译：混合量子处理器：分子集合体作为固态电路的量子存储器

Hybrid Quantum Processors: Molecular Ensembles as Quantum Memory for Solid State Circuits

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