二、三量子逻辑门的研制

TURKISH PHYSICAL SOCIETY 35TH INTERNATIONAL PHYSICS CONGRESS (TPS35) Pub Date : 2019-11-25 DOI:10.1063/1.5135425

Sevcan Terzi, A. Gençten

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引用次数: 1

摘要

量子信息处理已成为一个很有前途的研究领域。在量子信息处理中，将使用量子比特和量子位元来代替比特。量子位是一个两能级的量子系统，量子位是一个三能级的量子系统。自旋为1的电子或原子核的塞曼能级可以被认为是脱能级。在本研究中，首先，开发了两个和三个量子交换逻辑门。对于两种量子态，存在不同类型的CNOT量子逻辑门。本研究得到了这些不同类型的CNOT门之间的关系。量子信息处理已成为一个很有前途的研究领域。在量子信息处理中，将使用量子比特和量子位元来代替比特。量子位是一个两能级的量子系统，量子位是一个三能级的量子系统。自旋为1的电子或原子核的塞曼能级可以被认为是脱能级。在本研究中，首先，开发了两个和三个量子交换逻辑门。对于两种量子态，存在不同类型的CNOT量子逻辑门。本研究得到了这些不同类型的CNOT门之间的关系。

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Development of some two and three qutrit quantum logic gates

Quantum information processing has become a promising research area. In quantum information processing qubits and qutrits will be used instead of bits. A qubit is a two level quantum system and a qutrit is a three level quantum system. Zeeman levels of spin-1 electron or nucleus can be considered as qutrit states. In this study, first, two and three qutrit SWAP logic gates are developed. For two qutrit states, there exist different types of CNOT quantum logic gates. The relationships between these different types of CNOT gates are obtained in this study.Quantum information processing has become a promising research area. In quantum information processing qubits and qutrits will be used instead of bits. A qubit is a two level quantum system and a qutrit is a three level quantum system. Zeeman levels of spin-1 electron or nucleus can be considered as qutrit states. In this study, first, two and three qutrit SWAP logic gates are developed. For two qutrit states, there exist different types of CNOT quantum logic gates. The relationships between these different types of CNOT gates are obtained in this study.

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TURKISH PHYSICAL SOCIETY 35TH INTERNATIONAL PHYSICS CONGRESS (TPS35)

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