Features of polarizing microscope products
Polarizing microscope is a type of microscope used to study so-called transparent and opaque anisotropic materials, and has important applications in science and engineering majors such as geology. Any substance with birefringence can be clearly distinguished under a polarizing microscope. Of course, these substances can also be observed using staining methods, but some are not, and must be observed using a polarizing microscope. Reflective polarization microscope is an essential instrument for studying and identifying substances with birefringence by utilizing the polarization characteristics of light. It can be used by users for single polarization observation, orthogonal polarization observation, and cone light observation.
The main product features of polarizing microscopes
The method of changing ordinary light into polarized light for microscopic examination to distinguish whether a substance is single refracted (isotropic) or birefringent (anisotropic). Birefringence is a fundamental characteristic of crystals. Therefore, polarizing microscopy is widely used in fields such as minerals and chemistry, as well as in biology and botany.
Polarization microscopy is a type of microscope used to identify the optical properties of fine structures of substances. Any substance with birefringence can be clearly distinguished under a polarizing microscope. Of course, these substances can also be observed using staining methods, but some are impossible and must be observed using a polarizing microscope.
The characteristic of a polarizing microscope is the method of changing ordinary light into polarized light for microscopic examination, in order to distinguish whether a substance is monorefractive (isotropic) or birefringent (anisotropic).
Birefringence is a fundamental characteristic of crystals. Therefore, polarizing microscopy is widely used in fields such as minerals, polymers, fibers, glass, semiconductors, and chemistry. In biology, many structures also exhibit birefringence, which requires the use of polarized light microscopy to distinguish them. In botany, such as identifying fibers, chromosomes, spindle fibers, starch granules, cell walls, and whether crystals are present in cytoplasm and tissue. In plant pathology, the invasion of pathogens often causes changes in the chemical properties of tissues, which can be distinguished by polarizing microscopy.
