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相关概念视频

Conservation of Angular Momentum: Application01:18

Conservation of Angular Momentum: Application

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A system's total angular momentum remains constant if the net external torque acting on the system is zero. Examples of such systems include a freely spinning bicycle tire that slows over time due to torque arising from friction, or the slowing of Earth's rotation over millions of years due to frictional forces exerted on tidal deformations. However in the absence of a net external torque, the angular momentum remains conserved. The conservation of angular momentum principle requires a...
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The Hall Effect01:30

The Hall Effect

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Edwin H. Hall, in the year 1879, devised an experiment that could be used to identify the polarity of the predominant charge carriers in a conducting material. From a historical perspective, this experiment was the first to demonstrate that the charge carriers in most metals are negative.
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Conservation of Angular Momentum01:09

Conservation of Angular Momentum

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A system's total angular momentum remains constant if the net external torque acting on the system is zero. Considering a system that consists of n tiny particles, the angular momentum of any tiny particle may change, but the system's total angular momentum would remain constant. The principle of conservation of angular momentum only considers the net external torque acting on the system. While there are internal forces exerted by different particles within the system that also produce...
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Angular Momentum: Single Particle01:10

Angular Momentum: Single Particle

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Angular momentum is directed perpendicular to the plane of the rotation, and its magnitude depends on the choice of the origin. The perpendicular vector joining the linear momentum vector of an object to the origin is called the “lever arm.” If the lever arm and linear momentum are collinear, then the magnitude of the angular momentum is zero. Therefore, in this case, the object rotates about the origin such that it lies on the rim of the circumference defined by the lever arm...
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Molecular Orbital Theory I02:35

Molecular Orbital Theory I

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Overview of Molecular Orbital Theory
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The Energies of Atomic Orbitals03:21

The Energies of Atomic Orbitals

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In an atom, the negatively charged electrons are attracted to the positively charged nucleus. In a multielectron atom, electron-electron repulsions are also observed. The attractive and repulsive forces are dependent on the distance between the particles, as well as the sign and magnitude of the charges on the individual particles. When the charges on the particles are opposite, they attract each other. If both particles have the same charge, they repel each other.
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相关实验视频

Updated: Jul 4, 2025

Optimization, Test and Diagnostics of Miniaturized Hall Thrusters
12:22

Optimization, Test and Diagnostics of Miniaturized Hall Thrusters

Published on: February 16, 2019

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可控制的轨道-角动量霍尔效应通过工程内在轨道-轨道相互作用.

Jianbin Ren, Haolin Lin, Yixuan Liao

    Optics letters
    |February 1, 2024
    PubMed
    概括

    研究人员使用光学内在轨道-轨道相互作用演示了可控制的轨道-角动量霍尔效应. 这种相互作用源于旋-反旋合,可用于诸如配对光子生成等应用的空间操纵.

    科学领域:

    • 光学和光子学 在光学和光子学.
    • 量子光学是一种量子光学.
    • 轻物质相互作用 轻物质相互作用

    背景情况:

    • 光场中的和反表现出复杂的相互作用.
    • 轨道角动量 (OAM) 在光的空间性质中起着至关重要的作用.
    • 控制光物质相互作用是先进光学应用的关键.

    研究的目的:

    • 在理论和实验上研究光学内在轨道-轨道相互作用.
    • 为了揭示和证明一个可控制的轨道-角度-动量霍尔效应.
    • 探索在光子生成和操纵中的潜在应用.

    主要方法:

    • 在光场中,旋-反旋合的理论建模.
    • 实验设置涉及自由传播的光与嵌套的 vortex-antivortex结构.
    • 设计光学元件的初始分布以控制相互作用.

    主要成果:

    • 通过旋-反旋合驱动的内在轨道-轨道相互作用的演示.
    • 对可控制的轨道-角动量霍尔效应的观察.
    • 通过工程交互参数实现霍尔效应的空间操纵.

    结论:

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    • 光学内在轨道-轨道相互作用提供了一个控制OAM霍尔效应的机制.
    • 展示的技术允许对光特性进行空间操纵.
    • 这项研究提供了一种可控配对光子生成的方法.