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Frequency response analysis in electrical circuits provides vital insights into a circuit's behavior as the frequency of the input signal changes. The transfer function, a mathematical tool, is instrumental in understanding this behavior. It defines the relationship between phasor output and input and comes in four types: voltage gain, current gain, transfer impedance, and transfer admittance. The critical components of the transfer function are the poles and zeros.
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Shortly after de Broglie published his ideas that the electron in a hydrogen atom could be better thought of as being a circular standing wave instead of a particle moving in quantized circular orbits, Erwin Schrödinger extended de Broglie’s work by deriving what is now known as the Schrödinger equation. When Schrödinger applied his equation to hydrogen-like atoms, he was able to reproduce Bohr’s expression for the energy and, thus, the Rydberg formula governing hydrogen spectra.
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Norton's theorem is a fundamental principle stating that a linear two-terminal circuit can be substituted with an equivalent circuit, which comprises a current source (ⅠN) in parallel with a resistor (RN). Here, ⅠN represents the short-circuit current flowing through the terminals, and RN stands for the input or equivalent resistance at the terminals when all independent sources are deactivated. This implies that the circuit illustrated in Figure (a) can be exchanged with the...
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Updated: Jul 1, 2025

Large Scale Energy Efficient Sensor Network Routing Using a Quantum Processor Unit
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在部署的校园网络上基于纠的量子数字签名.

Joseph C Chapman, Muneer Alshowkan, Bing Qi

    Optics express
    |March 5, 2024
    PubMed
    概括
    此摘要是机器生成的。

    量子数字签名提供了信息理论上的安全性,超越了传统的公钥方法. 这项研究证明了它们在部署的光纤网络上具有低错误率的可行性,为安全的量子通信铺平了道路.

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    科学领域:

    • 量子信息科学 量子信息科学
    • 密码学 密码学 密码学 密码学
    • 网络安全 网络安全

    背景情况:

    • 公钥数字签名广泛使用,但缺乏信息理论上的安全性.
    • 量子数字签名 (QDS) 提供了一个潜在的更安全的替代方案.
    • 在现实世界网络中实施QDS带来了重大技术挑战.

    研究的目的:

    • 展示和描述基于纠的量子数字签名的硬件.
    • 评估QDS在部署的光纤网络上的可行性.
    • 评估性能指标,包括错误率和潜在范围.

    主要方法:

    • 开发和描述基于纠的QDS的硬件.
    • 在校园网络上部署和测试系统.
    • 在25小时内收集测量数据.
    • 严格的模拟包括一个特定的噪音模型.

    主要成果:

    • 成功实现并描述了基于纠的QDS硬件.
    • 在校园网络上实现了较低的量子位错误率 (在大多数情况下<5%).
    • 模拟显示QDS能力在50公里以上的距离.
    • 在用户数量方面表现出灵活性,尽管每个用户的纠率降低了.

    结论:

    • 量子数字签名可以在部署的光纤基础设施上成功使用.
    • 开发的系统显示了与信息理论安全的安全通信的前景.
    • 未来的升级可以显著提高签名率,使QDS更实用.