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相关概念视频

Phase Transitions02:31

Phase Transitions

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Whether solid, liquid, or gas, a substance's state depends on the order and arrangement of its particles (atoms, molecules, or ions). Particles in the solid pack closely together, generally in a pattern. The particles vibrate about their fixed positions but do not move or squeeze past their neighbors. In liquids, although the particles are closely spaced, they are randomly arranged. The position of the particles are not fixed—that is, they are free to move past their neighbors to...
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Phase Changes01:19

Phase Changes

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Phase transitions play an important theoretical and practical role in the study of heat flow. In melting or fusion, a solid turns into a liquid; the opposite process is freezing. In evaporation, a liquid turns into a gas; the opposite process is condensation.
A substance melts or freezes at a temperature called its melting point and boils or condenses at its boiling point. These temperatures depend on pressure. High pressure favors the denser form of the substance, so typically, high pressure...
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Interference and Diffraction02:18

Interference and Diffraction

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Interference is a characteristic phenomenon exhibited by waves. When two electromagnetic waves interact with their peaks and troughs coinciding, a resulting wave with enhanced amplitude is produced. This is known as constructive interference. In this case, the two waves interacting are in phase with each other.
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Planar Rigid-Body Motion01:22

Planar Rigid-Body Motion

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Understanding the movement of a rigid body in planar motion involves recognizing that every particle within this body is traversing a path that maintains a consistent distance from a specific plane. This concept is fundamental in the study of physics and mechanical engineering, and it allows us to comprehend better how objects move in space.
Planar motion is typically divided into three distinct categories. The first is rectilinear translation, demonstrated by a subway train that moves along...
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Gauss's Law: Planar Symmetry01:27

Gauss's Law: Planar Symmetry

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A planar symmetry of charge density is obtained when charges are uniformly spread over a large flat surface. In planar symmetry, all points in a plane parallel to the plane of charge are identical with respect to the charges. Suppose the plane of the charge distribution is the xy-plane, and the electric field at a space point P with coordinates (x, y, z) is to be determined. Since the charge density is the same at all (x, y) - coordinates in the z = 0 plane, by symmetry, the electric field at P...
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Elastic Collisions: Case Study01:15

Elastic Collisions: Case Study

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Elastic collision of a system demands conservation of both momentum and kinetic energy. To solve problems involving one-dimensional elastic collisions between two objects, the equations for conservation of momentum and conservation of internal kinetic energy can be used. For the two objects, the sum of momentum before the collision equals the total momentum after the collision. An elastic collision conserves internal kinetic energy, and so the sum of kinetic energies before the collision equals...
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Updated: Jun 13, 2025

Scattering And Absorption of Light in Planetary Regoliths
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Scattering And Absorption of Light in Planetary Regoliths

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几何相驱动散射演变的几何相驱动散射演变

Pengxiang Wang1, Yuntian Chen1,2, Wei Liu3,4

  • 1School of Optical and Electronic Information, <a href="https://ror.org/00p991c53">Huazhong University of Science and Technology</a>, Wuhan, Hubei 430074, People's Republic of China.

Physical review letters
|September 13, 2024
PubMed
概括
此摘要是机器生成的。

这项研究引入了一种新的方法,用于使用准正常模式 (QNMs) 控制波散射. 它揭示了QNMs中的几何相,允许精确操纵散射强度和极化.

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相关实验视频

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Shaping the Amplitude and Phase of Laser Beams by Using a Phase-only Spatial Light Modulator
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科学领域:

  • 波浪物理学的波浪物理.
  • 光子学 是一个光子学.
  • 电磁主义 电磁主义

背景情况:

  • 传统的散射操纵依赖于多极扩张,它依赖于起源,描述而不是预测.
  • 准正常模式 (QNM) 为理解波散射现象提供了一个替代框架.

研究的目的:

  • 通过QNMs的受控激发和干扰来探索散射操纵.
  • 开发基于QNM属性的分散控制的预测框架.

主要方法:

  • 散射波被扩展成连贯的QNMs的添加.
  • 电磁互惠性被用来推导波恩卡雷球上的几何表示.
  • 识别和分析QNM的几何相.

主要成果:

  • 发现QNM的一个隐藏的几何相,推动了散射进化.
  • 同步控制事件偏振依赖的几何相位和激发幅度,可以操纵散射.
  • 在散射中观察到连续的2π几何相变化.

结论:

  • 建立了一个全面的框架来计算相互散射系统中的几何相位.
  • 这种方法为光子学和一般波物理学提供了显著的进步.
  • 这些发现可以精确控制散射强度和极化.