1. Polarization of light
• Polarization generally just means “orientation.” It comes from the Greek word
polos,
• Wave polarization occurs for vector fields.
• For light (electromagnetic waves) the vectors are the electric and magnetic
fields, and
• light’s polarization direction is by convention along the direction of the
electric field.
3. Polarized Light
Polarized Light
Vibrations lie on one single plane only.
Unpolarized Light
Superposition of many beams, in the same
direction of propagation, but each with
random polarization.
7. When electric field vectors of light are restricted to a single plane by filtration, then the light is
said to be polarized with respect to the direction of propagation and all waves vibrate in the
same plane.
Light is generally emitted from its source with the electric field oscillating in various directions.
Polarizers eliminate the oscillations in all directions but one.
8. Nature of Polarized Light
Light may be treated as a transverse electromagnetic wave
Imagine two harmonic, linearly polarized light waves of the
same frequency, moving through the same region of space, in
the same direction
is the relative phase difference between the waves. Ey lags
Ex when > 0; Ey leads Ex when < 0
),(),(),(
)cos(),(
)cos(),(
0
0
tzEtzEtzE
tkzEjtzE
tkzEitzE
xx
yy
xx
Linear Polarization
Circular Polarization
Elliptical Polarization
Natural Light
10. 10
Mathematical description of the EM wave
Light wave that propagates in the z direction:
y)t-kzcos(E)tz,(E
xt)-kzcos(E)tz,(E
0yy
0xx
11. Resultant wave is linear in vertical plane
Resultant wave is linear in 450
plane
12. 12
Vertically polarized light
If there is no amplitude in x (E0x = 0), there is only
one component, in y (vertical).
y)t-kzcos(E)tz,(E
xt)-kzcos(E)tz,(E
0yy
0xx
13. 13
Polarization at 45°
If there is no phase difference (=0) and
E0x = E0y, then Ex = Ey
y)t-kzcos(E)tz,(E
xt)-kzcos(E)tz,(E
0yy
0xx
14. 14
Circular polarization
If the phase difference is = 90º and E0x = E0y
then: Ex / E0x = cos , Ey / E0y = sin
and we get the equation of a circle:
1sincos
E
E
E
E 22
2
0y
y
2
0x
x
y)t-kzcos(E)tz,(E
xt)-kzcos(E)tz,(E
0yy
0xx
17. Blue wave is resultant elliptical polarized wave
Green wave is resultant elliptical polarized wave
18. Malus’s Law
How much unpolarized light passes through a perfect polarizer ?
2
0 cos)( II
2
0I
I
Malus’s Law: when a perfect polarizer is placed in a polarized beam of light,
the intensity, I, of the light that passes through is given by
where I0 is the initial intensity and is the angle between the light’s initial
polarization direction and the axis of the polarizer
19. Polarization by reflection
When light is reflected at the polarizing angle p (Brewster’s angle), the
reflected light is linearly polarized as show.
The polarizing angle p is when the reflected and refracted rays are 90° from
each other, i.e. when p + b = 90 °.
sin sin
sin sin(90 ) cos
tan (Brewster's Law)
a p b b
a p b p b p
b
p
n n
n n n
n
n
20.
21. Brewster’s law
It is found that experimentally when the reflected ray is perpendicular to
the refracted ray, the reflected light will be completely plane-polarized.
Reflected rayIncident ray
o
90
p
b
p
1n
2n
22. Polarization by Reflection
Under those circumstances, for an incoming
unpolarized wave made up of two incoherent
orthogonal linearly polarized components, only the
component polarized normal to the incident plane
and therefore parallel to the surface will be reflected
This particular angle of incidence for which this
situation occurs is designated by Brewster’s angle
Many significant applications
i
t
p
n
n
tan
23. Polarization by Reflection
Unpolarized light can be polarized, either partially or completely, by reflection.
The amount of polarization in the reflected beam depends on the angle of
incidence.
24. Polarization by Scattering
Imagine a linearly polarized plane wave
incident on an air molecule to dipole’s
oscillating
The vibrations are parallel to the E-field
The scattered light in the forward direction
is completely unpolarized
Off that axis it is partially polarized,
becoming increasingly more polarized as
the angle increases
When the direction of observation is
normal to the primary beam, the light is
completely linearly polarized
25. Light Polarization in Nature
Light incident upon the molecules in the
atmosphere will excite electrons in the atoms
to oscillate in a direction 90o from the incident
beam.
Oscillating electrons act as antennas that re-
emit the light that is now polarized.
Over 50% of the light that reaches the surface
of the earth is polarized!
26. Polarization by Refraction
• When an incident unpolarized ray enters
some crystals it will be split into two rays
called ordinary and extraordinary rays, which
are plane-polarized in directions at right
angles to each other.
27. Absorptive Polarizer
Dichroism: selective absorption of one of the two orthogonal linearly polarized components of an incident beam.
Wire-Grid Polarizer:
a grid of parallel conducting wires
electric field into two orthogonal ones
one field drives the conduction current
energy is transferred from field to the grid
The transmission axis of the grid is perpendicular to the wires
Dichroic Crystal: the best known crystal of this type is tourmaline. Seldom used as a polarizers due to limited size,
strongly wavelength dependence …
Polaroid: is made from PVA plastic with an iodine doping
the most common type of polarizer in use due to its durability and practicality
rather similar to the wire-grid polarizer
stretching of the sheet ensure that the PVA chains are aligned in one direction
electrons from the iodine doping absorb polaried light parallel to the chains
Modern type: made of elongated silver nanoparticles embedded in thin glass plates, achieving polarization ratios
~105:1 and absorption of correctly-polarized light ~ 1.5%
28. Application • Used in LCD display
• Electrical voltage on a liquid
crystal diode turns on and off
polarizing filter effect.