Optimal control of entangling operations for trapped-ion quantum computing

Nebendahl V; Haffner H; Roos CF

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Optimal control of entangling operations for trapped-ion quantum computing

机译：陷入离子量子计算中纠缠操作的最优控制

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Optimal control techniques are applied for the decomposition of unitary quantum operations into a sequence of single-qubit gates and entangling operations. To this end, we modify a gradient-ascent algorithm developed for systems of coupled nuclear spins in molecules to make it suitable for trapped-ion quantum computing. We decompose unitary operations into entangling gates that are based on a nonlinear collective spin operator and complemented by global spin flip and local light shift gates. Among others, we provide explicit decompositions of controlled-NOT and Toffoli gates, and a simple quantum error correction protocol.

机译：最优控制技术应用于将for量子运算分解为一系列单量子位门和纠缠运算。为此，我们修改了为分子中耦合核自旋系统开发的梯度上升算法，使其适合于俘获离子量子计算。我们将unit运算分解为基于非线性集体自旋算子并由全局自旋翻转和局部光移门进行补充的纠结门。其中，我们提供了受控NOT门和Toffoli门的显式分解，以及简单的量子误差校正协议。

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《Physical Review, A. Atomic, molecular, and optical physics》 |2009年第1期|共6页
作者
Nebendahl V; Haffner H; Roos CF;
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正文语种 eng
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关键词
ERROR-CORRECTION; UNIVERSAL; GATE; ENTANGLEMENT; COMPUTATION; PARTICLES; STATES;

机译：纠错;通用;门;纠缠;计算;粒子;状态;

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1. Optimal control of entangling operations for trapped-ion quantum computing [J] . Nebendahl V, Haffner H, Roos CF Physical Review, A. Atomic, molecular, and optical physics . 2009,第1aPta1期

机译：陷入离子量子计算中纠缠操作的最优控制
2. Completely positive covariant two-qubit quantum processes and optimal quantum NOT operations for entangled qubit pairs [J] . Novotny J, Alber G, Jex I Physical Review, A. Atomic, molecular, and optical physics . 2006,第6aPta1期

机译：纠缠量子位对的完全正协变二量子位量子过程和最优量子非运算
3. Completely positive covariant two-qubit quantum processes and optimal quantum NOT operations for entangled qubit pairs [J] . Novotny J, Alber G, Jex I Physical Review, A. Atomic, molecular, and optical physics . 2006,第6aPta1期

机译：纠缠量子位对的完全正协变二量子位量子过程和最优量子非运算
4. TILT: Achieving Higher Fidelity on a Trapped-Ion Linear-Tape Quantum Computing Architecture [C] . Xin-Chuan Wu, Dripto M. Debroy, Yongshan Ding, IEEE International Symposium on High Performance Computer Architecture . 2021

机译：倾斜：在捕获离子线性磁带量子计算架构上实现更高的保真度
5. Scalable State Detection and Fast Transport of Trapped-Ion Qubits for Quantum Computing [D] . Todaro, Susanna L. 2020

机译：用于量子计算的捕获离子Qubits的可伸缩状态检测和快速传输
6. Efficient arbitrary simultaneously entangling gates on a trapped-ion quantum computer [O] . Nikodem Grzesiak, Reinhold Blümel, Kenneth Wright, -1

机译：阱离子量子计算机上高效的任意同时纠缠门
7. Optimal control of entangling operations for trapped ion quantum computing [O] . Nebendahl, V., Haffner, H., Roos, C. F. 2008

机译：陷阱离子量子纠缠态的最优控制计算
8. Integrated Visible Photonics for Trapped-Ion Quantum Computing. [R] . Kharas, D., Sorace-Agaskar, C., Bramhavar, S., 2017

机译：用于陷阱离子量子计算的集成可见光子学。

Optimal control of entangling operations for trapped-ion quantum computing

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