Design of Automated Polarization based on EDU-QCRY 1

2019 International Seminar on Research of Information Technology and Intelligent Systems (ISRITI) Pub Date : 2019-12-01 DOI:10.1109/ISRITI48646.2019.9034608

Carensy Donabela, M. A. Ulin Nuha, Rini Wisnu Wardhani, Mohamad Syahral, Dion Ogi, Dedy Septono Catur Putranto

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引用次数: 1

Abstract

Polarization Automation based on EDU-QCRY 1 is a system designed to facilitate the use of EDU-QCRY 1 devices in simulation of sending Quantum Bit (Qubit). Polarization automation utilizes quantum mechanical properties on the EDU QCRY 1 device, which will produce bits through polarization automation on the EDU-QCRY 1 quantum polarizator device. Polarization rotation will be done automatically and randomly using an ultrasonic piezomotor device that receives random voltage input on the Arduino Uno microcontroller. The random voltage input is based on a random source from the accelerometer sensor. The measurement results of the accelerometer sensor will be processed and converted into voltage as input to perform automatic and random polarization rotations on the EDU QCRY polariator device. Furthermore, the automatic polarization results will produce a series of numbers that run on the principle of anti-cloning and quantum mechanical properties.

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基于EDU-QCRY的自动偏振设计

基于EDU-QCRY 1的极化自动化系统是为了方便使用EDU-QCRY 1器件模拟发送量子比特(Qubit)而设计的。极化自动化利用EDU-QCRY 1器件上的量子力学特性，通过EDU-QCRY 1量子偏振器件上的极化自动化产生比特。在Arduino Uno微控制器上使用一个接收随机电压输入的超声波压电马达装置，自动和随机地完成极化旋转。随机电压输入基于来自加速度计传感器的随机源。将加速度计传感器的测量结果进行处理并转换为电压作为输入，在EDU QCRY极化装置上进行自动和随机极化旋转。此外，自动极化结果将产生一系列基于反克隆原理和量子力学特性的数字。

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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来源期刊

2019 International Seminar on Research of Information Technology and Intelligent Systems (ISRITI)

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