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Things to Know About the Polarized Light Microscope
- By Edison Ramsey
- Published 12/17/2009
- Computers and Technology
- Unrated
Edison Ramsey
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The polarized light microscope, which sadly is one of the undervalued investigative tools, offers a wealth of opportunities and potentials. For one thing, it brings with it the benefits of bright field microscopy. For another thing, it exploits the optical characteristics of anisotropy in order to reveal the detailed information regarding the composition and structure of the materials, which are indeed invaluable for diagnostic and identification purposes.
Components of the Microscope
Due to its use in the observation and photography of specimens for their optically anisotropic properties, the polarized light microscope must be equipped with the following components:
* The polarizer is positioned in the light path of the specimen
* The analyzer, which acts as the second polarizer, is positioned in the optical pathway between the observation/camera ports and the objective rear aperture
The image contrast comes from the interaction of the plane-polarized light with the doubly- refracting specimen, which will then generate two individual wave components. In turn, these are polarized in perpendicular planes. The velocities and the propagation direction of these components vary depending on the specimen under study.
After exiting the specimen, said light components subsequently become out of phase. However, the constructive and destructive interference of the analyzer recombine these light components to form a cohesive and detailed image.
When compared with techniques such as bright field and dark field illumination, phase contrast, Hoffman modulation contrast, differential interference contrast, and fluorescence, the technology behind the polarized light microscope is such that it significantly
improves on the quality of the specimen image obtained.
Configuration of the Microscope
It must be emphasized that the microscope using polarized light is very similar to the bright field microscope. However, there are significant differences especially in the additional components, which are unique in microscopes of this kind.
Said special components include the abovementioned polarizer and analyzer, the objectives and condenser, the Bertrand lens, the circular graduated stage able to complete a 360-degree rotation, and the opening in the microscope body. The latter may also be used or the intermediate tube for compensators, which include can be a full-wave retardation plate, or quarter-wavelength plate, or a quartz wedge.
When the polarizer and analyzer are removed, the polarized light microscope becomes equal in applications as the common bright field microscope in terms of its optical characteristics. Of course, the other components stay in place.
Alignment of the Microscope
When using the microscope, the proper alignment of all mechanical and optical components is a very critical factor in the proper magnification and observation of the specimens. Thus, proper alignment must be performed before undertaking quantitative analysis either with crossed polarizers or in combinations with compensators and retardation plates. Each specimen requires a different set of alignment so it is always best to refer to the users' manual in this respect.
Indeed, the polarized light microscope has many uses and applications for students and researchers alike. The trick is in using the microscope the proper way, of which experience and common sense in following instructions are the most important in this respect.
CanScope - complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca
Components of the Microscope
Due to its use in the observation and photography of specimens for their optically anisotropic properties, the polarized light microscope must be equipped with the following components:
* The polarizer is positioned in the light path of the specimen
* The analyzer, which acts as the second polarizer, is positioned in the optical pathway between the observation/camera ports and the objective rear aperture
The image contrast comes from the interaction of the plane-polarized light with the doubly- refracting specimen, which will then generate two individual wave components. In turn, these are polarized in perpendicular planes. The velocities and the propagation direction of these components vary depending on the specimen under study.
After exiting the specimen, said light components subsequently become out of phase. However, the constructive and destructive interference of the analyzer recombine these light components to form a cohesive and detailed image.
When compared with techniques such as bright field and dark field illumination, phase contrast, Hoffman modulation contrast, differential interference contrast, and fluorescence, the technology behind the polarized light microscope is such that it significantly
Configuration of the Microscope
It must be emphasized that the microscope using polarized light is very similar to the bright field microscope. However, there are significant differences especially in the additional components, which are unique in microscopes of this kind.
Said special components include the abovementioned polarizer and analyzer, the objectives and condenser, the Bertrand lens, the circular graduated stage able to complete a 360-degree rotation, and the opening in the microscope body. The latter may also be used or the intermediate tube for compensators, which include can be a full-wave retardation plate, or quarter-wavelength plate, or a quartz wedge.
When the polarizer and analyzer are removed, the polarized light microscope becomes equal in applications as the common bright field microscope in terms of its optical characteristics. Of course, the other components stay in place.
Alignment of the Microscope
When using the microscope, the proper alignment of all mechanical and optical components is a very critical factor in the proper magnification and observation of the specimens. Thus, proper alignment must be performed before undertaking quantitative analysis either with crossed polarizers or in combinations with compensators and retardation plates. Each specimen requires a different set of alignment so it is always best to refer to the users' manual in this respect.
Indeed, the polarized light microscope has many uses and applications for students and researchers alike. The trick is in using the microscope the proper way, of which experience and common sense in following instructions are the most important in this respect.
CanScope - complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca
