. Cytology. Cytology. Polarizer Unpolarized Unpolarized incident incident light light Figure 11-22. Schematic Diagram Showing the Alignment of Polarizer and Analyzer When in the Uncrossed (left) and Crossed Positions (right) in the Polarization Microscope. it emerges as plane-polarized light oscillating in a single plane perpen- dicular to the direction in which the light is traveling (Figure 11-23). Plane-polarized light produced in this manner, on passing through an anisotropic object, is split into two components which oscillate in mutu- ally perpendicular planes (Figure 11-24). On emerging
. Cytology. Cytology. Polarizer Unpolarized Unpolarized incident incident light light Figure 11-22. Schematic Diagram Showing the Alignment of Polarizer and Analyzer When in the Uncrossed (left) and Crossed Positions (right) in the Polarization Microscope. it emerges as plane-polarized light oscillating in a single plane perpen- dicular to the direction in which the light is traveling (Figure 11-23). Plane-polarized light produced in this manner, on passing through an anisotropic object, is split into two components which oscillate in mutu- ally perpendicular planes (Figure 11-24). On emerging from the object, the two polarized components are recombined, but as their relative velocities through the object are different, they will be out of phase, , one ray will be retarded relative to the other. In Figure 11-24, the ray (S) SURVEY OF CYTOLOGICAL TECHNIQUES / 243. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Wilson, G. B. (George Bernard), 1914-; Morrison, John H. (John Herbert), 1927-. New York, Reinhold
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