(a) Electro-optic materials have indices of refraction that depend on field. Consider a material where the indices of refraction along the x and y directions depend on the electric field applied along z: 1 - InorEz nx = no- ny = no + 1 + Inor Ez Where r is the electro-optic constant of the material. X Show that the phase difference accumulated between the optical electric field along x and y after traveling through the material a distance L is: 44= 2nrE,L λο
(a) Electro-optic materials have indices of refraction that depend on field. Consider a material where the indices of refraction along the x and y directions depend on the electric field applied along z: 1 - InorEz nx = no- ny = no + 1 + Inor Ez Where r is the electro-optic constant of the material. X Show that the phase difference accumulated between the optical electric field along x and y after traveling through the material a distance L is: 44= 2nrE,L λο
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Transcribed Image Text:(a) Electro-optic materials have indices of refraction that depend on field. Consider a material
where the indices of refraction along the x and y directions depend on the electric field applied
along z:
nx = no-
1
-Inor Ez
1
ny = no + n³r Ez
Where r is the electro-optic constant of the material.
V
X
Show that the phase difference accumulated between the optical electric field along x and y after
traveling through the material a distance L is:
14=
2nrE,L
λο
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