使用未表征器件的广义时空量子随机数发生器

IF 5.8 2区 物理与天体物理 Q1 OPTICS EPJ Quantum Technology Pub Date : 2024-03-05 DOI:10.1140/epjqt/s40507-024-00227-z
Hamid Tebyanian, Mujtaba Zahidy, Ronny Müller, Søren Forchhammer, Davide Bacco, Leif. K. Oxenløwe
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引用次数: 0

摘要

与伪随机数生成器和硬件随机数生成器等传统生成器相比,基于量子力学的随机数生成器(RNG)因其安全性和不可预测性而令人着迷。这项研究分析了在一类半设备无关的量子 RNG 中,随着希尔伯特空间维度、状态准备子空间或测量子空间的增加,可提取的随机性量的变化。我们进一步讨论了这些因素对复杂性的影响,并得出了最佳方案的结论。我们研究了一般情况下的分时编码方案,定义了各种输入(状态准备)和结果(测量)子空间,并讨论了获得最大熵的最佳方案。我们对几种输入设计进行了实验测试,并分析了其可设想的结果安排。考虑到设备的缺陷,特别是脉冲后效应和探测器的暗计数,我们对它们的性能进行了评估。最后,我们证明这种方法可以提高系统熵,从而产生更多可提取的随机性。
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Generalized time-bin quantum random number generator with uncharacterized devices

Random number generators (RNG) based on quantum mechanics are captivating due to their security and unpredictability compared to conventional generators, such as pseudo-random number generators and hardware-random number generators. This work analyzes evolutions in the extractable amount of randomness with increasing the Hilbert space dimension, state preparation subspace, or measurement subspace in a class of semi-device-independent quantum-RNG, where bounding the states’ overlap is the core assumption, built on the prepare-and-measure scheme. We further discuss the effect of these factors on the complexity and draw a conclusion on the optimal scenario. We investigate the generic case of time-bin encoding scheme, define various input (state preparation) and outcome (measurement) subspaces, and discuss the optimal scenarios to obtain maximum entropy. Several input designs were experimentally tested and analyzed for their conceivable outcome arrangements. We evaluated their performance by considering the device’s imperfections, particularly the after-pulsing effect and dark counts of the detectors. Finally, we demonstrate that this approach can boost the system entropy, resulting in more extractable randomness.

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来源期刊
EPJ Quantum Technology
EPJ Quantum Technology Physics and Astronomy-Atomic and Molecular Physics, and Optics
CiteScore
7.70
自引率
7.50%
发文量
28
审稿时长
71 days
期刊介绍: Driven by advances in technology and experimental capability, the last decade has seen the emergence of quantum technology: a new praxis for controlling the quantum world. It is now possible to engineer complex, multi-component systems that merge the once distinct fields of quantum optics and condensed matter physics. EPJ Quantum Technology covers theoretical and experimental advances in subjects including but not limited to the following: Quantum measurement, metrology and lithography Quantum complex systems, networks and cellular automata Quantum electromechanical systems Quantum optomechanical systems Quantum machines, engineering and nanorobotics Quantum control theory Quantum information, communication and computation Quantum thermodynamics Quantum metamaterials The effect of Casimir forces on micro- and nano-electromechanical systems Quantum biology Quantum sensing Hybrid quantum systems Quantum simulations.
期刊最新文献
On the randomness of time ordered quantum measurements A new quantum solution to blind millionaires’ problem without an honest third party An investigation of errors in ellipse-fitting for cold-atom interferometers Numerical model of N-level cascade systems for atomic Radio Frequency sensing applications Electromagnetic side-channel attack risk assessment on a practical quantum-key-distribution receiver based on multi-class classification
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