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相关概念视频

Singularity Functions for Shear01:26

Singularity Functions for Shear

126
In structural analysis, singularity functions are crucial in simplifying the representation of shear forces in beams under discontinuous loading. These functions describe discontinuous  variations in shear force across a beam with varying loads by using a single mathematical expression, regardless of the complexity of the loading conditions. The singularity functions are derived from creating a free-body diagram of the beam and then making conceptual cuts at specific points to examine the...
126
Shear on the Horizontal Face of a Beam Element01:16

Shear on the Horizontal Face of a Beam Element

161
To understand shear on the flat side of a prismatic beam element, consider the vertical and horizontal shearing forces, and the normal forces, acting on the element. The element's upper (U) and lower (L) sections, which are divided by the beam's neutral axis, are examined. The equilibrium of these forces is determined by applying the equilibrium equation, which helps identify the horizontal shearing force. This force is directly related to the bending moments and the cross-section's...
161
Shearing Strain01:20

Shearing Strain

252
The shearing strain represents a cubic element's angular change when subjected to shearing stress. This type of stress can transform a cube into an oblique parallelepiped without influencing normal strains. The cubic element experiences a significant transformation when exposed solely to shearing stress. Its shape alters from a perfect cube into a rhomboid, clearly demonstrating the effect of shearing strain. The degree of this strain is considered positive if it reduces the angle between...
252
Unsymmetric Loading of Thin-Walled Members01:23

Unsymmetric Loading of Thin-Walled Members

103
Thin-walled members with non-symmetrical cross-sections are vital to engineering structures, offering material efficiency and structural integrity. However, unsymmetrical loading on these members leads to complex stress distributions, resulting in simultaneous bending and twisting can cause deformation or structural failure. The interaction between bending and twisting requires detailed analysis to ensure structural resilience.
The concept of the shear center is crucial in countering the...
103
Gauss's Law: Planar Symmetry01:27

Gauss's Law: Planar Symmetry

7.9K
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...
7.9K
Transformation of Plane Stress01:18

Transformation of Plane Stress

218
Studying stress transformation is essential in understanding how stress components within a material, like a cube under plane stress, change with rotation. This change is analyzed by considering a prismatic element within the cube. As the element rotates, the stress components acting on it—both normal and shearing stresses—change in magnitude and orientation. This change is quantified using trigonometric functions of the rotation angle, relating the forces acting on the rotated element's...
218

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Updated: Jun 21, 2025

Demonstration of Equal-Intensity Beam Generation by Dielectric Metasurfaces
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超标剪切元表面的超标剪切元表面.

Enrico M Renzi1,2, Emanuele Galiffi1, Xiang Ni1,3

  • 1Photonics Initiative, <a href="https://ror.org/01gdjt538">Advanced Science Research Center</a>, <a href="https://ror.org/00453a208">City University of New York</a>, New York, New York 10031, USA.

Physical review letters
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PubMed
概括
此摘要是机器生成的。

设计的高压剪切元表面使得超限,低损失的表面波成为可能. 这些新的工程表面为整个电磁频谱的光物质相互作用提供宽带Purcell增强.

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科学领域:

  • 凝聚物质物理学 凝聚物质物理学
  • 超材料是指一种超材料.
  • 纳米光子学 纳米光子学

背景情况:

  • 具有低对称性的极性介电材料支持高压剪切极子,具有独特光学特性的局限表面模式.
  • 以前的观测仅限于中红外线中的大量自然物质,由于物质和频率的限制,限制了它们的潜力.

研究的目的:

  • 引入超级剪切超表面作为先进极立声学的工程表面.
  • 为了证明对称度量身定制的分散和受控的损失,以增强光物质相互作用.

主要方法:

  • 制造超薄的高压剪切金属表面.
  • 在元表面内设计有效的剪切现象.
  • 超波表面波的特征及其封闭性质.

主要成果:

  • 用几何学控制的,超狭窄的高压波形表面波的演示.
  • 实现了这些表面波的低损失传播.
  • 观察到宽带Purcell增强适用于广泛的电磁频谱.

结论:

  • 过度剪切的超表面为操纵光物质相互作用提供了一个强大的平台.
  • 这些工程表面克服了自然材料的局限性,使光子学和其他领域的新应用成为可能.