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相关概念视频

Imaging Biological Samples with Optical Microscopy01:18

Imaging Biological Samples with Optical Microscopy

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Optical microscopy uses optic principles to provide detailed images of samples. Antonie van Leeuwenhoek designed the first compound optical microscope in the 17th century to visualize blood cells, bacteria, and yeast cells. In 1830, Joseph Jackson Lister created an essentially modern light microscope. The 20th century saw the development of microscopes with enhanced magnification and resolution.
In optical microscopy, the specimen to be viewed is placed on a glass slide and clipped on the stage...
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Confocal Fluorescence Microscopy01:16

Confocal Fluorescence Microscopy

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Confocal microscopy is an advanced microscopic technique. The prime advantage of the confocal microscope over other microscopy techniques is its ability to block the out-of-focus light from the illuminated samples using pinholes. It is widely used with fluorescence optics to obtain high-resolution, sharp contrast images. Unlike optical microscopes, confocal microscopes use a focused beam of light laser to scan the entire sample surface at different z-planes. These microscopes are, therefore,...
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Total Internal Reflection Fluorescence Microscopy01:05

Total Internal Reflection Fluorescence Microscopy

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Total internal reflection fluorescence microscopy or TIRF is an advanced microscopic technique used to visualize fluorophores in samples close to a solid surface with a higher refractive index, such as a glass coverslip. TIRF only allows fluorophores in proximity to the solid surface to be excited. When light from a medium with a lower refractive index (such as air) hits the glass coverslip at a critical angle, the light undergoes total internal reflection stead of passing through the glass.
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A Guide to Structured Illumination TIRF Microscopy at High Speed with Multiple Colors
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照明镜子的光线镜子

T Z Esirkepov1, S V Bulanov1,2

  • 1Kansai Institute for Photon Science, National Institutes for Quantum and Radiological Science and Technology (QST), 8-1-7 Umemidai, Kizugawa, Kyoto 619-0215, Japan.

Physical review. E
|March 16, 2024
PubMed
概括

一个移动折射率调制,作为一个光镜,改变电磁波. 根据频率,波可以传输,反射频率上升,或形成静止波,在调制停止时释放高频辐射.

科学领域:

  • 光学和光子学 在光学和光子学.
  • 电磁主义 电磁主义
  • 凝聚物质物理学 凝聚物质物理学

背景情况:

  • 电磁波与动态介质的相互作用是研究的一个基本领域.
  • 了解相对论速度的波动行为对于先进的光学现象至关重要.

研究的目的:

  • 为了研究电磁波与以光速在真空中移动的折射率调制相互作用的行为.
  • 描述与"光镜"相互作用的波的传输,反射和光谱特性.

主要方法:

  • 在时间变化的介电介质中对电磁波传播的理论分析.
  • 波浪相互作用与移动折射率调制的频域和时间域分析.

主要成果:

  • 显示频率依赖的波动行为:总传输与相位移,静止波形成,或总反射与频率上升.
  • 一个光镜对短脉冲的影响的表征,产生波束,增加局部频率和反方形光谱密度.
  • 在调制消失后释放的高频辐射的观察.

结论:

  • 一个以光速移动的折射率调制作为一种具有独特波浪操纵能力的新型光学元件.
  • 光镜提供了一个产生高频辐射和修改波束特征的机制.

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  • 这项工作为基本的波媒相互作用提供了洞察力,在频率转换和脉冲成形方面具有潜在的应用.