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相关概念视频

Interference and Superposition of Waves01:07

Interference and Superposition of Waves

4.8K
When two waves of the same nature occur in the same region simultaneously, they result in interference. Interference of waves implies that the net effect of the waves is the sum of the individual waves' effects. However, it does not imply that the individual waves affect the propagation of other waves.
Interference occurs in mechanical waves, such as sound waves, waves on a string, and surface water waves. Mechanical waves correspond to the physical displacement of particles. Hence,...
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Sound Waves: Interference00:53

Sound Waves: Interference

3.7K
Sound waves can be modeled either as longitudinal waves, wherein the molecules of the medium oscillate around an equilibrium position, or as pressure waves. When two identical waves from the same source superimpose on each other, the combination of two crests or two troughs results in amplitude reinforcement known as constructive interference. If two identical waves, that are initially in phase, become out of phase because of different path lengths, the combination of crests with troughs...
3.7K
Atomic Absorption Spectroscopy: Interference01:25

Atomic Absorption Spectroscopy: Interference

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Interference leads to systematic error in atomic absorption (AA) measurements by enhancing or diminishing the analytical signal or the background. These interferences can be grouped into three main categories: spectral interference, chemical interference, and physical interference.
Spectral interference occurs when signals from other elements or molecules overlap with the analyte signal, falsely elevating or masking the analyte's absorbance. This interference can be corrected using Zeeman,...
639
Propagation of Waves01:07

Propagation of Waves

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When a wave propagates from one medium to another, part of it may get reflected in the first medium, and part of it may get transmitted to the second medium. In such a case, the interface of the two mediums can be considered as a boundary that is neither fixed nor free.
Consider a scenario where a wave propagates from a string of low linear mass density to a string of high linear mass density. In such a case, the reflected wave is out of phase with respect to the incident wave, however the...
2.3K
Interference: Path Lengths01:10

Interference: Path Lengths

1.3K
Consider two sources of sound, that may or may not be in phase, emitting waves at a single frequency, and consider the frequencies to be the same.
Two special sources may be considered when they are in phase. This can be easily achieved by feeding the two sources from the same source. An example would be synchronizing the two speakers by feeding them with the same source, such as the sound waves produced by a tuning fork. This setup ensures that the two sources have the same frequency and are...
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相关实验视频

Updated: May 30, 2025

Wideband Optical Detector of Ultrasound for Medical Imaging Applications
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基于直角波形的反散干扰抑制技术用于水下光学无线通信.

Xinren Zhang, Weijie Liu, Nuo Huang

    Journal of the Optical Society of America. A, Optics, image science, and vision
    |January 31, 2025
    PubMed
    概括

    本研究引入了直角波形,通过减少反射干扰来提高水下光学无线通信 (UOWC) 的性能. 实验证实了这种新方法在动态,泡的水下通道中的有效性.

    科学领域:

    • 光学无线通信的无线通信
    • 信号处理 信号处理

    背景情况:

    • 反向散射干扰显著降低了全双流水下光学无线通信 (UOWC) 系统的性能.
    • 当反向散射干扰功率与目标信号功率相竞争时,检测性能就会受到损害.

    研究的目的:

    • 在动态的UOWC系统中引入直角波形,以减轻反向散射效应.
    • 提出一个共同的最大概率检测方案,以直角脉冲成型为特色,为UOWC量身定制.

    主要方法:

    • 利用赫尔米特-高斯和前置球形波函数用于直角波形生成.
    • 在动态UOWC系统中实施脉冲位置调制 (PPM) 方案.
    • 开发和应用一个共同的最大概率检测算法.

    主要成果:

    • 采用直角波形的拟议方法显著减轻了反向散射效应.
    • 实验结果表明,与没有直角脉冲成型的系统相比,检测性能优越.
    • 该系统的有效性在一个动态的水下泡通道中得到了验证.

    结论:

    • 正角波形有效地提高了UOWC系统的性能,通过打击反向散射.
    • 联合最大概率检测方案,加上直角波形,为UOWC提供了一个强大的解决方案.

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  • 这些发现特别适用于在具有挑战性的,动态的水下环境中运行的UOWC系统.