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相关概念视频

Magnetostatic Boundary Conditions01:28

Magnetostatic Boundary Conditions

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An electric field suffers a discontinuity at a surface charge. Similarly, a magnetic field is discontinuous at a surface current. The perpendicular component of a magnetic field is continuous across the interface of two magnetic mediums. In contrast, its parallel component, perpendicular to the current, is discontinuous by the amount equal to the product of the vacuum permeability and the surface current. Like the scalar potential in electrostatics, the vector potential is also continuous...
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Trends in Lattice Energy: Ion Size and Charge02:54

Trends in Lattice Energy: Ion Size and Charge

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An ionic compound is stable because of the electrostatic attraction between its positive and negative ions. The lattice energy of a compound is a measure of the strength of this attraction. The lattice energy (ΔHlattice) of an ionic compound is defined as the energy required to separate one mole of the solid into its component gaseous ions. For the ionic solid sodium chloride, the lattice energy is the enthalpy change of the process:
26.4K
Electric Field at the Surface of a Conductor01:26

Electric Field at the Surface of a Conductor

5.2K
Consider a conductor in electrostatic equilibrium. The net electric field inside a conductor vanishes, and extra charges on the conductor reside on its outer surface, regardless of where they originate.
In the 19th century, Michael Faraday conducted the famous ice pail experiment to prove that the charges always reside on the surface of a conductor. The experimental set-up consists of a conducting uncharged container mounted on an insulating stand. The outer surface of the container is...
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Electrostatic Boundary Conditions in Dielectrics01:27

Electrostatic Boundary Conditions in Dielectrics

1.8K
When an electric field passes from one homogeneous medium to another, crossing the boundary between the two mediums imparts a discontinuity in the electric field. This results in electrostatic boundary conditions that depend on the type of mediums the field propagates through.
Consider a case where both the mediums across a boundary are two different dielectric materials. Recall that the electric field and electric displacement are proportional and related through the material's permittivity....
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Theories of Dissolution: The Danckwerts' Model and Interfacial Barrier Model01:09

Theories of Dissolution: The Danckwerts' Model and Interfacial Barrier Model

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Various dissolution theories provide insight into the factors that influence the dissolution rate. Danckwerts' Model suggests that turbulence, rather than a stagnant layer, characterizes the dissolution medium at the solid-liquid interface. In this model, the agitated solvent contains macroscopic packets that move to the interface via eddy currents, facilitating the absorption and delivery of the drug to the bulk solution. The regular replenishment of solvent packets maintains the...
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Equipotential Surfaces and Conductors01:16

Equipotential Surfaces and Conductors

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For a conductor in which all charges are at rest, the conductor's surface is equipotential. The electric field is always perpendicular to equipotential surfaces. Therefore, in a conductor with static charges, the electric field just outside the conductor is always perpendicular to the conductor's surface. Any tangential component of the electric field will cause charges to move inside the conductor, which will violate the electrostatic nature of the system. In an electrostatic...
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Fabrication and Characterization of Disordered Polymer Optical Fibers for Transverse Anderson Localization of Light
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分离的表面和批量拓安德森定位过渡在无序的轴向绝缘体中.

Cormac Grindall1, Alexander C Tyner2,3, Ang-Kun Wu1,4

  • 1Rutgers University, Department of Physics and Astronomy, Center for Materials Theory, Piscataway, New Jersey 08854, USA.

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概括
此摘要是机器生成的。

障碍可以解拓绝缘体.

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Experimental Methods for Spin- and Angle-Resolved Photoemission Spectroscopy Combined with Polarization-Variable Laser
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Experimental Methods for Spin- and Angle-Resolved Photoemission Spectroscopy Combined with Polarization-Variable Laser
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科学领域:

  • 凝聚物质物理学 凝聚物质物理学
  • 物质的拓相物质的拓相.
  • 量子材料是一种量子材料.

背景情况:

  • 物质的拓相具有明显的体积和边界电子间隙.
  • 障碍可以导致分离的移动性差距,类似于兰道理论中的批量边界关键性.

研究的目的:

  • 调查混乱对3D动力绝缘体的影响.
  • 在无序状态下分析散装和表面移动性差距的明显演变.

主要方法:

  • 使用一个三维的轴突绝缘体模型.
  • 在高斯单元组合中引入了混乱.
  • 分析了电子带结构和大厅导电.

主要成果:

  • 在无序状态下展示了大量和表面拓学的不同间隙演变.
  • 观察到每个表面出现2D未定量化异常的霍尔金属.
  • 识别了类似于传统3D拓绝缘体表面状态的光谱和响应特性.

结论:

  • 障碍可以在axion绝缘器中解散体和表面拓.
  • 在表面上可以实现一种新的2D异常霍尔金属相.
  • 结果提供了对拓相的洞察力,以及对其他量子材料的潜在扩展.