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Table of Contents
{ Abstract / Résumé }
Chapter 1
Chapter 2
Chapter 3
Chapter 4
Chapter 5
Chapter 6
Chapter 7
Chapter 8
A.1.1 : Slab waveguide (Maxwell's equations and solutions)
A.1.2 : Slab waveguide (Fundamental mode propagation constant and dispersion)
A.2.1 to 2 : Optical Fiber Waveguide (Comparison with a slab waveguide, Maxwell's equations)
Ph.D.  /  { Web Version }  /  Appendix  /  { Appendix A }  /  A.2.3 : Optical Fiber Waveguide (Fundamental mode HE11)
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{ Appendix B }
{ Appendix C }
{ Appendix D }
{ Appendix E }

A.2      Optical Fiber Waveguide

A.2.3      Fundamental mode HE11

For V < 2.405 the fiber only support the fundamental mode HE11 (for slab waveguides the condition value was p/2). There are two HE11 modes, one polarized along the x-axis and the second one along y-axis, but they are degenerated due to the circular symmetry of the fiber. In this case, the fiber is called "single-mode". The cutoff wavelength is defined as

(A-11)

The field distribution of the HE11 mode is given by (either Ex of Ey can be taken as 0)

(A-12)

where the first of (sin(j),cos(j)) for Ez and of (cos(j),sin(j)) for Hz holds if Ex = 0, and the second holds if Ey = 0. Z0 is the vacuum impedance, J0,1 are the Bessel functions of order 0 and 1, K0,1 the modified Bessel functions. The continuity equation is given by

(A-13)

The longitudinal components of the fields are on the order of u/kan with respect to the transverse components. Using (A-4) and (A-10) and the fact that D is smaller than 1 %, we can consider the mode as transversely polarized with a linear polarization. This leads to the denomination of the LP01 mode.

A useful approximation for v(V) is given by

(A-14)

The corresponding u value is obtained from (A-4). The relative error in u compared to the exact solution is less than 0.1 % for 1.5 < V < 2.5 and increase to 1 % for 1 < V < 3.

The propagation constant b is also defined as in (A-3) and we define an effective refractive index of the mode, neff, as

(A-15)

We define the normalized propagation constant b, varying between 0 and 1 (only dependent of V)

(A-16)

Using the fact that D is small, we can write

(A-17)

The error is less than 0.2 % for V between 1.5 and 2.5 (less than 2 % for V between 1 and 3).

The group delay t, characterizes the propagation delay time per unit length of a modulated signal transmitted by the optical wave. It is obtained as

(A-18)

where c is the vacuum light speed. Neglecting the difference in the dispersive properties between the core and the cladding, the time delay can be expressed as

(A-19)

where N2 = d(kn2)/dk is the group index of refraction of the material with refractive index n2, and (Vb)' = d(Vb)/dV well approximated by

(A-20)

The error is less than 1 % for 1.6 < V < 2.4 (less than 4 % for 1 < V < 3).

The dispersion description in fibers is more difficult as there is a mixing between the material dispersion (variation of N2 and D with l) and the waveguide dispersion (variations of b and (Vb)' with l).
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Path :  www.lphg.ch Ph.D. { Web Version } Appendix { Appendix A } A.2.3
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