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相关概念视频

Discrete-Time Fourier Series01:20

Discrete-Time Fourier Series

663
The Discrete-Time Fourier Series (DTFS) is a fundamental concept in signal processing, serving as the discrete-time counterpart to the continuous-time Fourier series. It allows for the representation and analysis of discrete-time periodic signals in terms of their frequency components. Unlike its continuous counterpart, which utilizes integrals, the calculation of DTFS expansion coefficients involves summations due to the discrete nature of the signal.
For a discrete-time periodic signal x[n]...
663
Convergence of Fourier Series01:21

Convergence of Fourier Series

379
The Fourier series is a powerful mathematical tool for representing periodic signals as an infinite sum of complex exponentials. In practice, this infinite series is truncated to a finite number of terms, yielding a partial sum. This truncation makes the approximation of the signal feasible but introduces certain challenges, particularly near discontinuities, known as the Gibbs phenomenon.
The Gibbs phenomenon refers to the persistent oscillations and overshoots that occur near discontinuities...
379
Continuous -time Fourier Transform01:11

Continuous -time Fourier Transform

840
The Fourier series is instrumental in representing periodic functions, offering a powerful method to decompose such functions into a sum of sinusoids. This technique, however, necessitates modification when applied to nonperiodic functions. Consider a pulse-train waveform consisting of a series of rectangular pulses. When these pulses have a finite period, they can be accurately represented by a Fourier series. Yet, as the period approaches infinity, resulting in a single, isolated pulse, the...
840
Trigonometric Fourier series01:17

Trigonometric Fourier series

751
Fourier series is a foundational mathematical technique that decomposes periodic functions into an infinite series of sinusoidal harmonics. This method enables the representation of complex periodic signals as sums of simple sine and cosine functions, facilitating their analysis and interpretation in various fields, including signal processing, acoustics, and electrical engineering.
The trigonometric Fourier series specifically expresses a periodic function with a defined period T using sine...
751
Properties of Fourier Transform I01:21

Properties of Fourier Transform I

610
The application of Fourier Transform properties in radio broadcasting is multifaceted, enabling significant advancements in the way signals are transmitted and received. Key areas where these properties are utilized include simultaneous multi-channel transmission, audio clip speed adjustments, live broadcast delays for different time zones, audio frequency adjustments, and signal demodulation.
In radio broadcasting, multiple audio signals often need to be transmitted simultaneously. The Fourier...
610
Basic signals of Fourier Transform01:07

Basic signals of Fourier Transform

897
The Fourier Transform is a pivotal mathematical tool in signal processing, enabling the transformation of time-domain signals into their frequency-domain representations. Among the numerous elements within this domain, certain functions like the sinc function, delta function, and exponential signals hold significant importance due to their unique properties and implications.
The sinc function, defined as sinc(x) = sin(πx)/(πx), is particularly notable for its symmetry and behavior at...
897

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A Multimodal Wide-Field Fourier-Transform Raman Microscope
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光学时空里埃综合:一个教程

Murat Yessenov, Ayman F Abouraddy

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    此摘要是机器生成的。

    本教程介绍了时空里叶光学,它结合了空间和时间的操纵,以创建独特的光学场. 它专注于圆柱体对称的场,使传播不变的波包具有可调节的组速度.

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    科学领域:

    • 物理光学是指物理光学.
    • 波浪现象是一种波浪现象.
    • 光学工程的光学工程.

    背景情况:

    • 富里埃光学是理解光操纵的基础.
    • 空间里叶光学使得成像,显微镜和全息学成为可能.
    • 时间里埃光学允许超快的脉冲成型.

    研究的目的:

    • 介绍空间时空里埃光学新兴领域.
    • 解释空间和时间光谱的联合操纵.
    • 专注于特定类别的不可分割的时空结构领域.

    主要方法:

    • 空间时空里埃综合学的教程.
    • 专注于圆柱体对称的场 (与波长相关的辐射空间频率).
    • 描述一个用于准备这些结构化光学场的系统.

    主要成果:

    • 产生具有独特传播特性的时空结构化的光学场.
    • 圆柱体对称的场形成传播不变的波束.
    • 这些波包在线性介质中以可调节的群体速度刚性地移动.

    结论:

    • 时空里叶光学提供了新的方法来结构光.
    • 这种方法可以创建传播不变的波包.
    • 描述的系统有助于准备特定的时空结构领域.