Bending a fiber cable over its MBR is one of the biggest factors in fiber damage in projects to install fiber cables. This practice can break the fibers inside or increase fiber attenuation (fiber power loss) than the manufacturer’s specifications. Although the internal fibers are already broken, you can not see any physical damage to the outer skin at all. As a result, you must replace the entire section or even the entire length of the cable. As a good practice, all fibers must be thoroughly tested after cable installation. More info from jiafu fiber optic cable manufacturer
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Fiber with large core diameter (greater than 10 micrometers) may be analyzed by geometrical optics. Such fiber is called multi-mode fiber, from the electromagnetic analysis (see below). In a step-index multi-mode fiber, rays of light are guided along the fiber core by total internal reflection. Rays that meet the core-cladding boundary at a high angle (measured relative to a line normal to the boundary), greater than the critical angle for this boundary, are completely reflected. The critical angle (minimum angle for total internal reflection) is determined by the difference in index of refraction between the core and cladding materials. Rays that meet the boundary at a low angle are refracted from the core into the cladding, and do not convey light and hence information along the fiber. The critical angle determines the acceptance angle of the fiber, often reported as a numerical aperture. A high numerical aperture allows light to propagate down the fiber in rays both close to the axis and at various angles, allowing efficient coupling of light into the fiber. However, this high numerical aperture increases the amount of dispersion as rays at different angles have different path lengths and therefore take different times to traverse the fiber.
Optical fiber types.
A laser bouncing down an acrylic rod, illustrating the total internal reflection of light in a multi-mode optical fiber
The propagation of light through a multi-mode optical fiber.
In graded-index fiber, the index of refraction in the core decreases continuously between the axis and the cladding. This causes light rays to bend smoothly as they approach the cladding, rather than reflecting abruptly from the core-cladding boundary. The resulting curved paths reduce multi-path dispersion because high angle rays pass more through the lower-index periphery of the core, rather than the high-index center. The index profile is chosen to minimize the difference in axial propagation speeds of the various rays in the fiber. This ideal index profile is very close to a parabolic relationship between the index and the distance from the axis.
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