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Main Authors: Zafar, Roohi, Kamran, Muhammad, Malik, Tahir, Karera, Kashish, Tariq, Humayon, Mustafa, Ghulam, Khan, Muhammad Mubashir
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.20492
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author Zafar, Roohi
Kamran, Muhammad
Malik, Tahir
Karera, Kashish
Tariq, Humayon
Mustafa, Ghulam
Khan, Muhammad Mubashir
author_facet Zafar, Roohi
Kamran, Muhammad
Malik, Tahir
Karera, Kashish
Tariq, Humayon
Mustafa, Ghulam
Khan, Muhammad Mubashir
contents Random numbers are central to various applications such as secure communications, quantum key distribution theory (QKD), statistics, and other tasks. One of today's most popular generators is quantum random numbers (QRNGs). The inherent randomness and true unpredictability in quantum mechanics allowed us to construct QRNGs that are more accurate and useful than traditional random number generators. Based on different quantum mechanical principles, several QRNGs have already been designed. The primary focus of this paper is the generation and analysis of quantum random numbers based on radioactive decay. In the experimental set, two beta-active radioactive sources, cobalt-60 (Co60) and Strontium-90 (Sr 90), and an ST-360 counter with a Geiger-Muller (GM) tube are used to record the counts. The recorded data was then self-tested by entropy and frequency measurement. Moreover, popular testing technique, the National Institute of Science and Technology (NIST) randomness testing is used, to ensure that the guaranteed randomness meets security standards. The research provides the impact of the nature of the radioactive source, the distance between the counter and sources, and the recording time of the counts on generating quantum random numbers of radioactive QRNGs.
format Preprint
id arxiv_https___arxiv_org_abs_2409_20492
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Randomness from Radiation: Evaluation and Analysis of Radiation-Based Random Number Generators
Zafar, Roohi
Kamran, Muhammad
Malik, Tahir
Karera, Kashish
Tariq, Humayon
Mustafa, Ghulam
Khan, Muhammad Mubashir
Quantum Physics
Random numbers are central to various applications such as secure communications, quantum key distribution theory (QKD), statistics, and other tasks. One of today's most popular generators is quantum random numbers (QRNGs). The inherent randomness and true unpredictability in quantum mechanics allowed us to construct QRNGs that are more accurate and useful than traditional random number generators. Based on different quantum mechanical principles, several QRNGs have already been designed. The primary focus of this paper is the generation and analysis of quantum random numbers based on radioactive decay. In the experimental set, two beta-active radioactive sources, cobalt-60 (Co60) and Strontium-90 (Sr 90), and an ST-360 counter with a Geiger-Muller (GM) tube are used to record the counts. The recorded data was then self-tested by entropy and frequency measurement. Moreover, popular testing technique, the National Institute of Science and Technology (NIST) randomness testing is used, to ensure that the guaranteed randomness meets security standards. The research provides the impact of the nature of the radioactive source, the distance between the counter and sources, and the recording time of the counts on generating quantum random numbers of radioactive QRNGs.
title Randomness from Radiation: Evaluation and Analysis of Radiation-Based Random Number Generators
topic Quantum Physics
url https://arxiv.org/abs/2409.20492