Propagation of waves
Download
Report
Transcript Propagation of waves
Polarization
Jones vector & matrices
Phys 375
1
Matrix treatment of polarization
Consider a light ray with an instantaneous Evector as shown
E z, t iˆEx z, t ˆjE y z, t
y
Ey
x
E x Eoxe
i kz t x
Ex
E y Eoy e
i kz t y
2
Matrix treatment of polarization
Combining the components
i kz t y
i kz t x
ˆ
ˆ
E i Eox e
jEoy e
i y
i x
ˆ
ˆ
E i Eox e jEoy e e i kz t
~ i kz t
E Eo e
The terms in brackets represents the complex
amplitude of the plane wave
3
Jones Vectors
The state of polarization of light is determined by
the relative amplitudes (Eox, Eoy) and,
the relative phases ( = y - x )
of these components
The complex amplitude is written as a twoelement matrix, the Jones vector
~
i x
Eox
Eox e
Eox
~
i x
Eo ~
e
i
i y
Eoy Eoy e
Eoy e
4
Jones vector: Horizontally polarized light
The electric field oscillations
are only along the x-axis
The Jones vector is then
written,
~
Eox Eox e i x A
1
~
Eo ~
A
Eoy 0 0
0
where we have set the phase
x = 0, for convenience
The arrows indicate
the sense of movement
as the beam
approaches you
y
E
x
The normalized form
is
1
0
5
Jones vector: Vertically polarized light
The electric field
oscillations are only along
the y-axis
The Jones vector is then
written,
~
0 0
E
0
~
ox
Eo ~
i y A
Eoy Eoy e A
1
Where we have set the
phase y = 0, for
convenience
y
E
x
The normalized form
is
0
1
6
Jones vector: Linearly polarized light at
an arbitrary angle
If the phases are such that = m for
m = 0, 1, 2, 3, …
Then we must have,
Ex
m Eox
1
Ey
Eoy
y
x
and the Jones vector is simply a line
inclined at an angle = tan-1(Eoy/Eox)
since we can write
~
E
~
m cos
ox
Eo ~ A 1
sin
E
oy
7
Circular polarization
y
Suppose Eox = Eoy = A
and Ex leads Ey by
90o=/2
At the instant Ex
reaches its maximum
displacement (+A), Ey
is zero
A fourth of a period
later, Ex is zero and
Ey=+A
x
t=0, Ey = 0, Ex = +A
t=T/8, Ey = +Asin 45o, Ex = Acos45o
t=T/4, Ey = +A, Ex = 0
8
Circular polarization
The Jones vector for this case – where Ex leads Ey is
i
~ Eoxe x A
Eo
i
i y
2
Eoy e Ae
1
A
i
The normalized form is,
This vector represents circularly polarized light, where
E rotates counterclockwise, viewed head-on
This mode is called left-circularly polarized light
What is the corresponding vector for right-circularly
polarized light?
1
2
1
i
Replace /2 with -/2 to get
1
2
1
i
9
Elliptically polarized light
If Eox Eoy , e.g. if Eox=A and Eoy = B
The Jones vector can be written
A
iB
counterclockwise
A
iB
clockwise
Here A>B
10
Jones vector and polarization
In general, the Jones vector for the arbitrary
case is an ellipse ( m; (m+1/2))
y
Eoy
Eox
A
~
Eo
i
Bcos i sin
E
e
oy
b
a
tan 2
2 Eox Eoy cos
E ox2 E oy2
x
Eox
11
Optical elements: Linear polarizer
Selectively removes all or most of the Evibrations except in a given direction
TA
y
x
Linear polarizer
12
Jones matrix for a linear polarizer
Consider a linear polarizer with transmission axis along the
vertical (y). Let a 2X2 matrix represent the polarizer
operating on vertically polarized light.
The transmitted light must also be vertically polarized. Thus,
a b 0 0
c d 1 1
Operating on horizontally polarized light,
a b 1 0
c d 0 0
Thus,
0 0
M
0
1
Linear polarizer with TA
vertical.
13
Jones matrix for a linear polarizer
For a linear polarizer with a transmission
axis at
cos
M
sin cos
2
sin cos
2
sin
14
Optical elements: Phase retarder
Introduces a phase difference (Δ) between
orthogonal components
The fast axis(FA) and slow axis (SA) are shown
FA
y
x
SA
Retardation plate
15
Jones matrix of a phase retarder
We wish to find a matrix which will transform the
elements as follows: Eoxe i x int o Eoxe i x x
i y
i y y
Eoy e
int o Eoy e
It is easy to show by inspection that,
ei x
M
0
0
i y
e
Here x and y represent the advance in phase of the
components
16
Jones matrix of a Quarter Wave Plate
Consider a quarter wave plate for which |Δ| =
/2
For y - x = /2 (Slow axis vertical)
Let x = -/4 and y = /4
The matrix representing a Quarter wave plate,
with its slow axis vertical is,
e i 4
M
0
i 1
0
4
e
0
i
4
e
0
i
17
Jones matrices: Half-wave Plate
For |Δ| =
e i 2
M
0
e i 2
M
0
i 1
0
2
e
0
i
e 2
i 1
0
2
e
0
i
2
e
0
1
0
1
HWP, SA vertical
HWP, SA horizontal
18
Optical elements:
Quarter/Half wave plate
When the net phase difference
Δ = /2 : Quarter-wave plate
Δ = : Half-wave plate
/2
19
Optical elements: Rotator
Rotates the direction of linearly polarized
light by a particular angle
y
x
SA
Rotator
20
Jones matrix for a rotator
An E-vector oscillating linearly at is rotated by
an angle
Thus, the light must be converted to one that
oscillates linearly at ( + )
a
c
b cos cos
d sin sin
cos
One then finds M
sin
sin
cos
21