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Photoelectric Effect02:26

Photoelectric Effect

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When light of a particular wavelength strikes a metal surface, electrons are emitted. This is called the photoelectric effect. The minimum frequency of light that can cause such emission of electrons is called the threshold frequency, which is specific to the metal. Light with a frequency lower than the threshold frequency, even if it is of high intensity, cannot initiate the emission of electrons. However, when the frequency is higher than the threshold value, the number of electrons ejected...
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UV–Vis Spectroscopy: Molecular Electronic Transitions01:16

UV–Vis Spectroscopy: Molecular Electronic Transitions

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In Ultraviolet–Visible (UV–Vis) spectroscopy, the absorption of electromagnetic radiation is used to probe the electronic structure of molecules. This technique provides insights into molecular electronic transitions, particularly the movement of electrons between different molecular orbitals. Radiation is absorbed if the energy of the electromagnetic radiation passing through the molecule is precisely equal to the energy difference between the excited and ground states. During this...
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Molecular Spectroscopy: Absorption and Emission01:14

Molecular Spectroscopy: Absorption and Emission

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Molecules possess discrete energy levels called quantum states. Unlike atoms, which have simpler energy levels, molecules possess additional rotational and vibrational energy levels.  Each energy level is separated by an energy gap, with the gaps between adjacent electronic, vibrational, and rotational levels varying significantly. The three types of energy levels in a diatomic molecule are shown in Figure 1.
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Atomic Spectroscopy: Absorption, Emission, and Fluorescence01:23

Atomic Spectroscopy: Absorption, Emission, and Fluorescence

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Atomic spectroscopy is a vital tool in elemental analysis, both qualitatively and quantitatively. It can be broadly divided into optical spectroscopy, mass spectroscopy, and X-ray spectroscopy methods. The optical spectroscopic methods are atomic absorption spectroscopy (AAS), atomic emission spectroscopy (AES), and atomic fluorescence spectroscopy (AFS). The first step in all three methods is atomization, where the solid, liquid, or solution-phase samples are converted into gas-phase atoms and...
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Interaction of EM Radiation with Matter: Spectroscopy01:12

Interaction of EM Radiation with Matter: Spectroscopy

3.0K
Electromagnetic (EM) radiation can be considered an oscillating electric and magnetic field propagating through a medium that can interact with matter in its path. The electric field in the radiation can interact with electrical charges in the atoms or molecules in the matter. On the other hand, the magnetic field can interact with the magnetic field in the atomic nucleus. The study of the interaction between electromagnetic radiation and matter is termed spectroscopy. Spectroscopy is the study...
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Photoluminescence: Fluorescence and Phosphorescence01:23

Photoluminescence: Fluorescence and Phosphorescence

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Photoluminescence is a process where a molecule absorbs light energy and re-emits it in the form of light. This phenomenon occurs when a substance absorbs photons, promoting its electrons to higher energy level excited states, followed by a relaxation process in which the electrons return to their original ground state energy levels and emit light. Photoluminescence is widely observed in various materials, including semiconductors, and organic and inorganic compounds.
A pair of electrons in a...
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Updated: Jan 15, 2026

Evanescent Field Based Photoacoustics: Optical Property Evaluation at Surfaces
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发光模式 光辐射 发光模式

Ragib Ahsan1, Alimohammed Kachwala2,3, Hyun Uk Chae1

  • 1Department of Electrical and Computer Engineering, University of Southern California, Los Angeles, California 90089, United States.

Nano letters
|October 13, 2025
PubMed
概括
此摘要是机器生成的。

研究人员开发了 evanescent mode photoemission,这是一种使用波导发射电子的新技术. 这种方法允许对光学模式进行详细的可视化,并为先进的纳米级应用提供精确的电子束成型.

关键词:
电子来源 电子来源发光合器 发光合器摄影发射是指光辐射.波导模式 波导模式

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科学领域:

  • 固态物理 固态物理
  • 光电学是指光电子产品.
  • 纳米技术纳米技术

背景情况:

  • 光辐射对于使用光的表面的电子辐射至关重要.
  • 现有的反射和传输模式具有局限性.
  • 抗氧化为光发射提供了高量子效率.

研究的目的:

  • 为了介绍和演示 evanescent 模式的光辐射.
  • 为了使引导光学模式的直接可视化.
  • 为了在纳米尺度上实现精确的电子束塑造.

主要方法:

  • 在抗氧化薄膜下整合化波导.
  • 使用从波导体到薄膜中的光的 evanescent 合.
  • 分析光发射电子以查看模式可视化和光束特征.

主要成果:

  • 展示了一个新的光发射模式: evanescent mode光发射.
  • 启用可视化引导光学模式从~100nm到1mm.
  • 实现了电子束形状,横向特征低于600nm.

结论:

  • 发光模式光辐射是一种新且有效的技术.
  • 这种方法为纳米级光学场映射提供了一个新的平台.
  • 它为生成定制电子束提供了精确的控制.