Determining optical anisotropy of the human cornea by a polarizing microscope (CAT#: STEM-MIT-0195-LJX)

Introduction

The cornea is the transparent part of the front outer wall of the eye. It is rounded, occupies one-sixth of the outer surface, is about 1 mm thick, and consists mainly of vaseless connective tissue. The front of the cornea is slightly raised, curved like a sphere, with refraction. The cornea is rich in sensory nerve endings, and any small irritation, injury or inflammation can cause pain and tears.

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Principle Applications Procedure Materials Notes Related Products

Principle

Polarized light microscopy is a kind of microscope to identify the optical properties of the fine structure of a substance. Any substance with birefringence can be distinguished under a polarizing microscope. The characteristic of a polarized light microscopy is to change ordinary light into polarizing light for microscopic examination in order to identify whether a substance is monorefringent (anisotropic) or birefringent (anisotropic).
1. Monorefractivity and birefringence: When light passes through a substance, if the properties and path of light do not change due to the direction of illumination, this substance has "isotropy" in optics, also known as a single refractor, such as ordinary gases, liquids, and amorphous solids; If the speed, refractive index, absorption, polarization, amplitude, etc. of light passing through another material vary depending on the direction of illumination, this material has "anisotropy" in optics, also known as a birefringent material, such as crystals, fibers, etc.
2. Polarization of light: Light waves can be divided into natural light and polarized light according to the characteristics of vibration. The vibration characteristic of natural light is that there are many vibration planes on the vertical light wave conduction axis, and the amplitude distribution of vibration on each plane is the same. Natural light through reflection, refraction, birefringence and absorption, can be obtained only in one direction vibration of light waves, this light wave is called "polarized light" or "polarized light".

Applications

Study and analysis in mineral, chemistry, biology, botany and other fields

Procedure

1. Sampling
2. Preparation of slices
3. Staining (Select according to the specific experimental situation)
4. Observation

Materials

• Sample Type:
Human cornea

Notes

Operate in strict accordance with the operating procedures, and shall not arbitrarily change the operating procedures

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