Simultaneous Initiating EPR and Quantum Channel by Quantum Key Distribution Protocol
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Authors
Abushgra, Abdulbast
Elleithy, Khaled M.
Issue Date
2016
Type
Article
Language
en_US
Keywords
Entangled states , Einstein–Podolsky–Rosen (EPR) pair paradox , Intercept-resend attack (IRA) , Open-key string (OKS) , Pauli-matrices measurement
Alternative Title
Abstract
Cryptography is the background of protecting the flowed information between various communicated parties. Quantum cryptography gives the extreme trust to transferred information by creating a unique secret key that is based upon the law of physics. This paper will discuss a novel algorithm that is presented through quantum key distribution (QKD) protocol. This QKD protocol depends on parallel quantum communications between participants within EPR and quantum channels. The proposed protocol utilizes the EPR channel to prove the authentication while the quantum channel to transfer the shared key. Moreover, the proposed protocol initiates the verification of the participant’s identity between the communicators by the EPR channel. After that the transferred data into quantum channel will create the secret key that contains a string of qubits as well as no need to communicate into classical channel.
Description
Citation
Publisher
Global Journals Inc.