Chinese Physics B ( IF 1.7 ) Pub Date : 2021-06-03 , DOI: 10.1088/1674-1056/abd7e5 Bakhtawar , Muhammad Haneef , Humayun Khan
There is always need for secure transmission of information and simultaneously compact-size photonic circuits. This can be achieved if surface plasmon-polaritons (SPPs) are used as source of information, and the reduced hacking as the transmission phenomenon. In this article, an SPP-based reduced hacking scheme is presented at interface between atomic medium and metallic conductor. The SPP propagation is manipulated with conductivity of the metal. The delay or advance of the SPP is found to create nanosecond time gap which can be used for storing and sending the information safely. The reduced hacking is further modified with conductivity of the metal and the control parameters of the atomic medium.
中文翻译:
表面等离子体激元诱导减少黑客攻击
总是需要安全的信息传输和紧凑尺寸的光子电路。如果使用表面等离子体激元 (SPP) 作为信息源,并将减少的黑客攻击作为传输现象,则可以实现这一点。在本文中,在原子介质和金属导体之间的界面上提出了一种基于 SPP 的简化黑客方案。SPP 传播受金属的电导率控制。发现 SPP 的延迟或提前会产生纳秒时间间隙,可用于安全地存储和发送信息。通过金属的导电性和原子介质的控制参数进一步修改了减少的黑客攻击。