Bent Single Mode FiberΒΆ

In this tutorial project we compute the fundamental propagation mode of a bent single mode fiber.

The fiber cross section has the same geometry as in the example without bent. E.g, the core has a relative permittivity \epsilon_{core} = 2.113 and a diameter d_{core} = 8.2 \mu m and the cladding has a relative permittivity \epsilon_{cladding} = 2.1025 and a diameter d_{cladding} = 80\mu m.

Due to the bent of the fiber, the assumption of vanishing tangential components of the magnetic field on the outer boundary no longer holds. This requires a slight change to the boundary definition of the fiber in the layout.jcm:

Boundary {
   Class=Transparent
}

The bent is specified by setting AxisPositionX = -0.005 in the project.jcmp (cf. AxisPositionX for the definition and details).

The computation is restricted to the modes of interest by a SelectionCriterion in the project.jcmp file

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        SelectionCriterion {
          NearGuess {
            Guess = 1.4513
            NumberEigenvalues = 1
          }
        }

The figure below shows the intensity distribution of the computed eigenmodes. On the left the intensity is shown on a linear scale, on the right on a logarithmic scale. The computed mode is mostly y polarized. . The corresponding eigenvalues are stored in the file eigenvalues.jcm.

   
intensity logIntensity