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相关概念视频

X-ray Crystallography02:18

X-ray Crystallography

24.0K
The size of the unit cell and the arrangement of atoms in a crystal may be determined from measurements of the diffraction of X-rays by the crystal, termed X-ray crystallography.
Diffraction
Diffraction is the change in the direction of travel experienced by an electromagnetic wave when it encounters a physical barrier whose dimensions are comparable to those of the wavelength of the light. X-rays are electromagnetic radiation with wavelengths about as long as the distance between neighboring...
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Design of Prismatic Beams for Bending01:23

Design of Prismatic Beams for Bending

317
The design of prismatic beams, structural elements with a uniform cross-section, focuses on ensuring safety and structural integrity under load. The design process begins by determining the allowable stress, either from material properties tables, or by dividing the material's ultimate strength by a safety factor. This safety factor is essential for accommodating uncertainties, and varies depending on the material—timber, steel, or concrete—with each having unique strength and...
317
Prismatic Beams: Problem Solving01:15

Prismatic Beams: Problem Solving

181
In the design of a supported timber beam subjected to a distributed load, both the beam's physical dimensions and the timber's characteristics, such as its grade and species, are critical. These factors determine the allowable stress values, which are crucial for calculating the necessary beam depth to ensure structural integrity and safety.
The design begins with analyzing the beam as a free body to identify moments and force balances, thereby determining support reactions. Next, the...
181
Deflection of a Beam01:19

Deflection of a Beam

319
Accurately determining beam deflection and slope under various loading conditions in structural engineering is crucial for ensuring safety and structural integrity. Singularity functions offer a streamlined approach to analyzing beams, especially when multiple loading functions complicate the bending moment equation.
Singularity functions, described in an earlier lesson, are powerful mathematical tools that represent discontinuities within a function commonly encountered in structural loading...
319
Shearing Stresses in a Beam: Problem Solving01:14

Shearing Stresses in a Beam: Problem Solving

269
A cantilever beam with a rectangular cross-section under distributed and point loads experiences shearing stresses. The analysis begins by identifying the loads acting on the beam. Then, the reactions at the beam's fixed end are calculated using equilibrium equations. The vertical reaction is a combination of the distributed and point loads, while the moment reaction is the sum of their moments. The shear force distribution along the beam, resulting from these loads, is established by...
269
Deformation of a Beam under Transverse Loading01:15

Deformation of a Beam under Transverse Loading

344
Understanding beam deflection, particularly for indeterminate beams with overhanging segments and multiple concentrated loads, is crucial for ensuring structural integrity and functionality. The process begins with constructing an accurate free-body diagram, which helps identify the forces and moments acting on the beam. This diagram is vital for visualizing how bending moments vary along the beam's length, influencing its curvature.
The insights from the bending moment diagram extend to...
344

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相关实验视频

Updated: Jul 29, 2025

The Generation of Higher-order Laguerre-Gauss Optical Beams for High-precision Interferometry
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The Generation of Higher-order Laguerre-Gauss Optical Beams for High-precision Interferometry

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基于代计算的原始体的复合无衍射束形成.

Pavel A Khorin1,2, Alexey P Porfirev1,2, Svetlana N Khonina1,2

  • 1Samara National Research University, Samara 443086, Russia.

Micromachines
|May 27, 2023
PubMed
概括

研究人员开发了一种使用衍射光学元件 (DOE) 创建复杂,无衍射光束的新方法. 这种方法允许快速生成和动态重新配置复杂的光模式,经过实验证实.

科学领域:

  • 光学是什么?光学是什么?光学是什么?
  • 光子学 是一个光子学.
  • 波浪现象是一种波浪现象.

背景情况:

  • 无衍射光束,如贝塞尔光束,对于需要稳定的光传播的应用至关重要.
  • 生成复杂的无衍射束结构一直是具有挑战性的,通常需要复杂和静态的光学元件.

研究的目的:

  • 提出并验证一种用于产生具有可控制横向强度分布的复杂无衍射束的方法.
  • 展示使用基于原始的方法设计衍射光学元件 (DOE) 的优点.

主要方法:

  • 用于环谱分析的原始空间光谱的代计算.
  • 对DOE的复杂传输函数进行优化,以生成原始的无衍射分布 (如方形,三角形).
  • 叠加原始的DOE与偏移相,以创建复杂的光束形成的多顺序光学元件.

主要成果:

  • 成功生成了复杂的无衍射束,具有由原始形状组成的横向强度分布.
  • 与复杂分布相比,实现了原始分布的DOE计算的快速趋同.
  • 证明了数值结果的实验证实.

结论:

  • 提出的基于原始的叠加方法提供了一种高效和灵活的方法来产生复杂的无衍射束.
关键词:
分散光学元件的光学元素.无衍射光束的光束是没有衍射的.全息影像光学子.结构化的激光束.

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Measurements of Long-range Electronic Correlations During Femtosecond Diffraction Experiments Performed on Nanocrystals of Buckminsterfullerene
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Measurements of Long-range Electronic Correlations During Femtosecond Diffraction Experiments Performed on Nanocrystals of Buckminsterfullerene

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  • 模块化设计允许使用空间光调制器 (SLM) 快速重新配置和动态控制光束结构.
  • 这种技术对先进的光学操纵和成像应用具有前景.