Fast Non-Adiabatic Gates and Quantum Algorithms on the Kane Quantum Computer in the Presence of Dephasing

机译：在存在的情况下，凯恩量子计算机上的快速非绝热栅极和量子算法

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We propose and find pulse sequences for non-adiabatic two-qubit gates (CNOT, swap and controlled Z gates) for the Kane silicon-based electron mediated nuclear spin quantum computer architecture. These quantum gates are simpler, with higher fidelity and faster than existing proposals. Any two qubit gate may be implemented using similar pulse sequences. In this paper, we investigate the effect of decoherence on the operation of these quantum gates and some simple algorithms for a variety of dephasing rates. Our model shows that conservative estimates of the dephasing rates in the Kane architecture give gate fidelities comparable to that required for fault tolerant quantum computing.

机译：我们向Kane硅基电子介导的核自旋量子计算机架构提出并找到了用于非绝热双奎布门（CNOT，SWAP和控制Z门）的脉冲序列。这些量子门更简单，保真度更高，比现有提案更快。可以使用类似的脉冲序列来实现任意两个QUBBit门。在本文中，我们研究了破坏对这些量子门的运行的影响以及各种相位率的一些简单算法。我们的模型表明，凯恩架构中的去除率的保守估计提供了与容错量计算所需的栅极保真度。

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《International Conference on Quantum Communication, Measurement, and Computing》|2004年||共4页
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Charles D. Hill; Hsi-Sheng Goan;
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中图分类 TN929.1-532;
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1. Gates for the Kane quantum computer in the presence of dephasing [J] . Hill CD, Goan HS Physical Review, A. Atomic, molecular, and optical physics . 2004,第2期

机译：移相时凯恩量子计算机的门
2. Error rate of the Kane quantum computer controlled-NOT gate in the presence of dephasing - art. no. 012301 [J] . Fowler AG., Wellard CJ., Hollenberg LCL. Physical Review, A. Atomic, molecular, and optical physics . 2003,第1期

机译：移相时凯恩量子计算机控制的NOT门的错误率-art。没有。 012301
3. Fast nonadiabatic two-qubit gates for the Kane quantum computer - art. no. 012321 [J] . Hill CD., Goan HS. Physical Review, A. Atomic, molecular, and optical physics . 2003,第1期

机译：用于Kane量子计算机的快速非绝热二量子位门-艺术。没有。 012321
4. Fast Non-Adiabatic Gates and Quantum Algorithms on the Kane Quantum Computer in the Presence of Dephasing [C] . Charles D. Hill, Hsi-Sheng Goan International Conference on Quantum Communication, Measurement, and Computing . 2004

机译：在存在的情况下，凯恩量子计算机上的快速非绝热栅极和量子算法
5. Quantum Computation: High-fidelity Quantum Gates on Quantum Dot Qubits in the Presence of 1/F Charge Noise Using Strong Drives, Numerical and Analytical Analysis [D] . Yang, Yuan-Chi. 2019

机译：量子计算：量子点上的高保真量子门在使用强大的驱动器，数值和分析分析的1 / F充电噪声存在下的Qubbits。
6. Experimental realization of non-adiabatic universal quantum gates using geometric Landau-Zener-Stückelberg interferometry [O] . Li Wang, Tao Tu, Bo Gong, -1

机译：用几何Landau-Zener-Stückelberg干涉术实现非绝热通用量子门的实验
7. Fast Non-Adiabatic Two Qubit Gates for the Kane Quantum Computer [O] . Hill, C D, Goan, H S 2003

机译：凯恩量子计算机的快速非绝热两个量子位门

Fast Non-Adiabatic Gates and Quantum Algorithms on the Kane Quantum Computer in the Presence of Dephasing

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