FPGA Utilized to Control the Coincidence Logic of Quantum Entangled Pairs (QEP)

International journal of energy science Pub Date : 2021-11-21 DOI:10.46300/91010.2021.15.12

Mohammed Munther A. Majeed, Z. Zukarnain

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Abstract

Control of quantum signals is very robust design technique and very important in quantum signal processing (QSP). It is not easy in experimentation platforms. Field Programmable Gate Array (FPGA) is using to control very various range of devices in quantum fields through PCs. FPGA needs to run modules of components to communicate and interfacing with the PC, through decode perform commands to direct control of digital hardware’s. If programmer has a real-time control of the FPGA via USB, it can be possible to evaluate design parameters changes in real-time, without reprogramming the FPGA. That makes the proposed design platforms easier for researchers. This paper discusses experiment of control quantum signals by FPGA to control coincidence logic for Quantum Entangled Pair (QEP), that able to measure polarization correlations relationships between photons of the QEP. This FPGA helps to determine detection events at different detectors which can be attributed to a single photon pair. Also to determine the correlation time between two different beams frequencies is extremely accurate according to the delay between the beams, which is very short.

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利用FPGA控制量子纠缠对(QEP)的符合逻辑

量子信号控制是一种鲁棒性很强的设计技术，在量子信号处理(QSP)中非常重要。这在实验平台上并不容易。现场可编程门阵列(FPGA)用于通过pc控制量子领域中各种各样的器件。FPGA需要运行组件模块与PC机进行通信和接口，通过解码执行命令来直接控制数字硬件。如果程序员通过USB对FPGA进行实时控制，则可以实时评估设计参数的变化，而无需对FPGA进行重新编程。这使得所提出的设计平台对研究人员来说更容易。本文讨论了用FPGA控制量子信号来控制量子纠缠对(QEP)的符合逻辑的实验，该量子纠缠对能够测量量子纠缠对光子之间的偏振相关关系。该FPGA有助于确定不同探测器上的检测事件，这些事件可归因于单个光子对。此外，根据两束之间非常短的延迟来确定两束不同频率之间的相关时间是非常准确的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of energy science

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