Polarization. When a plane EM wave incident at an oblique angle on a dielectric interface, there are...
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Transcript of Polarization. When a plane EM wave incident at an oblique angle on a dielectric interface, there are...
![Page 1: Polarization. When a plane EM wave incident at an oblique angle on a dielectric interface, there are two cases to be considered: incident electric field.](https://reader035.fdocuments.in/reader035/viewer/2022081822/56649f155503460f94c2ac6d/html5/thumbnails/1.jpg)
Polarization
![Page 2: Polarization. When a plane EM wave incident at an oblique angle on a dielectric interface, there are two cases to be considered: incident electric field.](https://reader035.fdocuments.in/reader035/viewer/2022081822/56649f155503460f94c2ac6d/html5/thumbnails/2.jpg)
OBLIQUE INCIDENCE – PROPAGATING WAVES
When a plane EM wave incident at an oblique angle on a dielectric interface, there are two cases to be considered: incident electric field has polarization parallel to the plane of incidence, and incident electric field has polarization that is perpendicular to the plane of incidence.
1. Parallel polarization:
The incident, reflected, and transmitted electric field vectors lie in the plane of incidence: the x-z plane.
Note: the angles are measured with respect to normal.
![Page 3: Polarization. When a plane EM wave incident at an oblique angle on a dielectric interface, there are two cases to be considered: incident electric field.](https://reader035.fdocuments.in/reader035/viewer/2022081822/56649f155503460f94c2ac6d/html5/thumbnails/3.jpg)
Oblique incidence – propagating waves
Incident wave:
Reflected wave:
Transmitted wave:
1 sin cos0 cos sin i ijk x z
i i x i zE E u u e
1 sin cos0 cos sin r rjk x z
r r x r zE E u u e
2 sin cos0 cos sin t tjk x z
t t x t zE E u u e
1 sin cos0
1
i ijk x zi y
c
EH u e
Z
1 sin cos0
1
r rjk x zr y
c
EH u e
Z
2 sin cos0
2
t tjk x zt y
c
EH u e
Z
![Page 4: Polarization. When a plane EM wave incident at an oblique angle on a dielectric interface, there are two cases to be considered: incident electric field.](https://reader035.fdocuments.in/reader035/viewer/2022081822/56649f155503460f94c2ac6d/html5/thumbnails/4.jpg)
Oblique incidence – propagating waves
From the boundary conditions: i.e., continuity of tangential electric and magnetic fields at the interface z = 0, we derive:
1 21
1 21
sin sinsin
sin sinsin
1 1 2
cos cos cosi tr
i tr
jk x jk xjk xi r t
jk x jk xjk x
c c c
e e e
e e e
Z Z Z
To satisfy these conditions, the Snell’s laws of reflection and refraction must hold:
1 2; sin sini r i tk k
![Page 5: Polarization. When a plane EM wave incident at an oblique angle on a dielectric interface, there are two cases to be considered: incident electric field.](https://reader035.fdocuments.in/reader035/viewer/2022081822/56649f155503460f94c2ac6d/html5/thumbnails/5.jpg)
Oblique incidence – propagating waves
For parallel polarization, a special angle of incidence exists, known as the Brewster’s angle, or polarizing angle, i = B, for which the reflection coefficient is zero: = 0.
It happens when
2 1cos cosc t c iZ Z
1
2
1sin
1B
Therefore:
If the incidence angle equals to Brewster’s angle, the reflected field will be polarized perpendicularly to the plane of incidence.
![Page 6: Polarization. When a plane EM wave incident at an oblique angle on a dielectric interface, there are two cases to be considered: incident electric field.](https://reader035.fdocuments.in/reader035/viewer/2022081822/56649f155503460f94c2ac6d/html5/thumbnails/6.jpg)
Oblique incidence – propagating waves
1. Perpendicular polarization:The incident, reflected, and transmitted electric field vectors are perpendicular to the plane of incidence: the x-z plane.
Incident wave:
Reflected wave:
Transmitted wave:
1 sin cos0
i ijk x zi yE E u e
1 sin cos0
r rjk x zr yE E u e
2 sin cos0
t tjk x zt yE E u e
1 sin cos0
1
cos sin i ijk x zi i x i z
c
EH u u e
Z
1 sin cos0
1
cos sin r rjk x zr r x r z
c
EH u u e
Z
2 sin cos0
2
cos sin t tjk x zt t x t z
c
EH u u e
Z
![Page 7: Polarization. When a plane EM wave incident at an oblique angle on a dielectric interface, there are two cases to be considered: incident electric field.](https://reader035.fdocuments.in/reader035/viewer/2022081822/56649f155503460f94c2ac6d/html5/thumbnails/7.jpg)
Oblique incidence – propagating waves
From the continuity of tangential electric and magnetic fields at the interface z = 0, we again derive:
1 21
1 21
sin sinsin
sin sinsin
1 1 2
cos coscos
i tr
i tr
jk x jk xjk x
jk x jk xjk xi tr
c c c
e e e
e ee
Z Z Z
As before, the Snell’s laws of reflection and refraction must hold:
1 2; sin sini r i tk k
These simplifications lead to very similar expressions:
2 1
2 1
2
2 1
cos cos
cos cos
2 cos
cos cos
c i c t
c i c t
c i
c i c t
Z Z
Z Z
Z
Z Z