基于不可复制量子数据介质的秘密解密与验证

2009 International Conference for Internet Technology and Secured Transactions, (ICITST) Pub Date : 2009-11-01 DOI:10.1109/ICITST.2009.5402590

L. Gyongyosi, S. Imre

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引用次数: 0

摘要

在经典计算机科学中，任何可以读取的数据都可以无限次地复制。在量子世界中，根据不可克隆定理，量子态不能被完美地复制。量子复制保护与经典复制保护的主要区别在于数据存储的物理资源。提出的基于量子信息的数据保护系统在于经典信息与量子信息的根本区别。经典数据存储在非正交量子态的秘密旋转角度中。在我们的论文中，我们证明了秘密量子解码操作可以实现一些相关的误差，这些误差随着角度态的量子态数呈指数递减。

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Unduplicable quantum data medium based secret decryption and verification

In classical computer science any data that can be read can be copied an unlimited number of times. In the quantum world, the quantum states cannot be copied perfectly, according to the no-cloning theorem. The major difference between quantum and classical copy protection is the physical resource for data storage. The proposed quantum based data protection system lies in the fundamental difference between classical and quantum information. The classical data is stored in the secret rotation angles of non-orthogonal quantum states. In our paper we show that secret quantum decoding operations can be implemented with some associated error, which decreases exponentially with the number of quantum states of the angle state.

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来源期刊

2009 International Conference for Internet Technology and Secured Transactions, (ICITST)

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