Effect of exchange interaction on the fidelity of quantum state transfer from a photon qubit to an electron-spin qubit

Yoshiaki Rikitake; Hiroshi Imamura

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Effect of exchange interaction on the fidelity of quantum state transfer from a photon qubit to an electron-spin qubit

机译：交换相互作用对从光子量子位到电子自旋量子位的量子态转移保真度的影响

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摘要

We analyzed the fidelity of the quantum state transfer (QST) from a photon-polarization qubit to an electron-spin-polarization qubit in a semiconductor quantum dot, with special attention to the exchange interaction between the electron and the simultaneously created hole. In order to realize a high-fidelity QST we had to separate the electron and hole as soon as possible, since the electron-hole exchange interaction modifies the orientation of the electron spin. Thus, we propose a double-dot structure to separate the electron and hole quickly, and show that the fidelity of the QST can reach as high as 0.996 if the resonant tunneling condition is satisfied.

机译：我们分析了半导体量子点中从光子极化量子位到电子自旋极化量子位的量子态转移（QST）的保真度，并特别注意电子与同时产生的空穴之间的交换相互作用。为了实现高保真QST，我们必须尽快分离电子和空穴，因为电子-空穴交换相互作用会改变电子自旋的取向。因此，我们提出了一种双点结构来快速分离电子和空穴，并表明如果满足共振隧穿条件，QST的保真度可以达到0.996。

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来源
《Physical review. B, Condensed Matter And Materials Physics》 |2006年第8期|p.081307R.1-081307R.4|共4页
作者
Yoshiaki Rikitake; Hiroshi Imamura;
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作者单位

CREST and Nanotechnology Research Institute, National Institute of Advanced Industrial Science and Technology, 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan;

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原文格式 PDF
正文语种 eng
中图分类固体物理学;
关键词
quantum dots; quantum information; optical creation of spin polarized carriers;

机译：量子点;量子信息;自旋极化载流子的光学产生;

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机译：交换相互作用对从光子量子位到电子自旋量子位的量子态保真度的影响

Effect of exchange interaction on the fidelity of quantum state transfer from a photon qubit to an electron-spin qubit

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