量子密码术具有较好的应用前景。
There is a good application prospect of Quantum Cryptography.
这些性质可以被用于量子通讯和量子密码术。
These properties can be used to quantum communication and quantum cryptography.
另外,量子隐形传态在量子稠密编码和量子密码术中有许多应用。
Moreover, it may have applications in quantum dense coding and quantum cryptography.
基于量子物理原理的量子密码术已被证明是保密信中密钥安全分配的有效手段。
Quantum cryptography, which is based on fundamental physical principles, has been proved to be an effective technique for secure key distribution.
以量子密钥分配为代表的量子密码术是量子信息技术应用于经典通信的成功典范。
As the representative of quantum cryptography, the quantum key distribution (QKD) is a successful model that the quantum information technique is applied in to the conventional communications.
在自由空间量子密钥分配中,单光子源采用具有泊松分布的高度衰减激光脉冲,量子密码术协议采用BB 84和B92协议。
Highly attenuated laser pulses with Poisson distribution are used as single-photon sources and the BB84 and B92 protocols are used for free-space quantum key distribution.
结果,量子计算机就能够破解今日不能被攻破的密码术,并能够进行复杂的模拟运算。
As a result, quantum computers should be able to defeat encryption that is unbreakable in practice today and perform highly complex simulations.
结果,量子计算机就能够破解今日不能被攻破的密码术,并能够进行复杂的模拟运算。
As a result, quantum computers should be able to defeat encryption that is unbreakable in practice today and perform highly complex simulations.
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