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1)  Fredkin quantum logic gate
Fredkin量子逻辑门
2)  Quantum Fredkin logic gate
量子Fredkin逻辑门
3)  quantum logical gate
量子逻辑门
4)  quantum logic gate
量子逻辑门
1.
Implementation of quantum logic gates via the interaction intrapped-ion cavity QED;
势阱离子+腔场系统中量子逻辑门的实现
2.
The properties of quantum bit(qubit) and quantum logic gates (quantum not-gate etc.
以Pauli矩阵为工具,讨论量子比特(Qubit)与量子逻辑门,Hadamard门,量子受控非门等)的有关性质。
3.
In this article,we describe the differences between classical logic gates and quantum logic gates,and explain the characteristics of quantum computation,the strong power of the quantum algorithm,and the problem of the realization of quantum logic gates.
本文通过经典逻辑门与量子逻辑门之比较,论述了量子计算的特点、量子算法的巨大威力及量子逻辑门的实现问题。
5)  quantum logic gates
量子逻辑门
1.
The properties of quantum bit (Qubit) and quantum logic gates (quantum not-gate, Hadamard gate, quantum controlled not-gate, Toffoli gate etc.
以 Clifford代数为工具 ,讲座量子比特 ( Qubit)与量子逻辑门 (量子非门 ,Hadamard门 ,量子受控非门 ,Toffoli门等 )的有关性质。
2.
The results show that when the frequency of the microwave is chosen near to the transition frequency for,ie,one-bit general quantum logic gates can be obtained.
研究结果表明,当微波场的角频率接近于系统二能级|0〉|1〉跃迁频率时,即ω1-ω0≈ωm,可以得到一位通用量子逻辑门。
3.
The properties of Clifford algebra,Dirac algebra and Quantum logic gates are discussed by the means of Pauli matrix.
以Pauli矩阵为工具 ,讨论Clifford代数、Dirac代数及量子逻辑门的有关性
6)  universal single qubit logic gate
一位量子逻辑门
1.
Based on the analytical solution, it is shown that the system can be used as a universal single qubit logic gate controlled by the strength and frequency of the magnetic field, and consequently six .
基于严格解,可以构造一位量子逻辑门。
2.
Based on the analytical solution, authors have realize the universal single qubit logic gate controlled by the amplitude and frequency of magnetic field and the six special single qubit gates are realized as well.
基于严格解,就可构造一位量子逻辑门。
补充资料:逻辑门
又称“数字逻辑电路基本单元”。执行“或”、“与”、“非”、“或非”、“与非”等逻辑运算的电路。任何复杂的逻辑电路都可由这些逻辑门组成。广泛用于计算机、通信、控制和数字化仪表。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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