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Unlike Multi-mode Optical Fiber s, single mode fibers do not exhibit Dispersion resulting from multiple spatial modes. Single mode fibers are also better at retaining the fidelity of each light pulse over long distances than are multi-mode fibers. For these reasons, single-mode fibers can have a higher Bandwidth than multi-mode fibers. Equipment for single mode fiber is more expensive than equipment for multi-mode optical fiber, but the single mode fiber itself is usually cheaper in bulk. A typical single mode optical fiber has a core radius between 8 and 10 . Data rates are limited by Polarization Mode Dispersion and Chromatic Dispersion . In 2005, data rates of up to 10 gigabits per second were possible at distances of over 60 km with commercially available transceivers. The lowest order bound mode is ascertained for the wavelength of interest by solving Maxwell's Equations for the boundary conditions imposed by the fiber, e.g., Core (spot) size and the refractive indices of the core and Cladding . The solution of Maxwell's equations for the lowest order bound mode will permit a pair of orthogonally polarized fields in the fiber, and this is the usual case in a Communication fiber. In step-index guides, single-mode operation occurs when the Normalized Frequency , ''V'', is less than 2.405. For Power -law profiles, single-mode operation occurs for a normalized frequency, ''V'', less than approximately , where ''g'' is the profile parameter. In practice, the orthogonal polarizations may not be associated with degenerate modes. SEE ALSO REFERENCES
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