这就是量子密集编码。
第三章介绍我们关于量子密集编码和量子克隆基本知识。
In chapter 3 I introduce the basic thought of quantum dense coding and quantum cloning.
实验结果表明:量子密集编码只需传送N-1个量子位便可以传递N个经典位的信息。
The experimental results show that QSDC only needs to transfer(N-1) qubits during transmitting N bits classical information;
此外,量子信息能开发出许多经典信息所无法做到的新的信息功能,如量子隐形传态、量子密集编码等。
Furthermore, quantum information can develop a lot of new information functions that classical information doesn't have, such as quantum teleportation, quantum dense coding, etc.
本论文给出了一种高效率、高信容的量子密钥分布模型,同时将量子密集编码推广到一般的多方高维的情况。
In this thesis, the author proposes a theoretically efficient high-capacity quantum key distribution scheme and generalizes the quantum dense coding to super dense coding between multiparty.
量子通信是量子信息学的一个非常重要的分支,目前主要涉及到量子隐形传态、量子密集编码、量子密钥分配等。
Quantum communication is a very important branch of quantum information. At present, it mainly contains quantum teleportation, quantum dense coding, quantum key distribution, and so on.
量子通信是量子信息学的一个非常重要的分支,目前主要涉及到量子隐形传态、量子密集编码、量子密钥分配等。
Quantum communication is a very important branch of quantum information. At present, it mainly contains quantum teleportation, quantum dense coding, quantum key distribution, and so on.
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