# Basics of Birefringence Measurement（1/4）

Four articles explain the understanding of birefringence and the measurement principles and features of our equipment.

## 1．Basics of Birefringence Measurement

### The three components of light

①Amplitude = brightness

②Wavelength = color

③Direction of the Vibration: polarization

In contrast to amplitude and wavelength, polarization cannot be recognized by the human eye,
making it difficult to apprehend intuitively.

### Basic Principle of Polarization Measurement

Rotating a polarizer and observe the change of intensity transmitted through the polarizer.

when Input Direction　=　Polarizer Direction → 100% transmitted

when Input Direction　⊥　Polarizer Direction → 0％ transmitted

when 45deg. … → 50％ transmitted

### Polarization and Birefringence

Refractive index = how easily light passes through the material

The higher the refractive index is, the more time is needed for light to pass through the material.
※Optical length=Refractive Index x Length
Example: for glass with index n = 1.5, light is slowed down by a factor 1.5.

Birefringence = when refractive index depends on light polarization

### Impact of Birefringence on Light Polarization

Phase Shift between Each Polarization Component and Total Polarization Resulting.
every state of polarization existing is the result of a combination of 2 perpendicular components.

In Phase
Linear Polarization

Circular Polarization

※ Depending on the phase shift between the 2 components, a different state of polarization results.

Material exhibiting birefringence makes polarization change

【 non-birefringent material】

No change in　polarization                                     Crossed polarizers (cross Nichols): dark, no light is detected.

【birefringent material】

Change of polarization                                        Even with crossed polarizers, light is detected due to the change of polarization induced by the birefringent material.

Crossed polarizers completely shut down the light trying to go through

A non birefringent material placed between does not change the situation

A birefringent material placed between the crossed polarizer appears bright

### Birefringence caused by stress

Even in non birefringent materials, internal stress can induce birefringent behavior.

This phenomenon, called “photo-elasticity,” imply that observed birefringence is proportional to the stress applied to the material. The proportionality constant, referred to as the “photo-elasticity constant,” is a property of each material.

birefringence＝ β×stress [force] (1012Pa)
phase shift δ(nm) = β×thickness d (cm)×stress [force] (10Pa)
～β is the photo-elastic constant for the particular material [ 1012/Pa ]
For example,
a force of 1MPa applied to a 1mm quartz plate results in a phase shift of:
3.5×0.1×10=3.5nm

### Summary: Polarization, Birefringence, Phase Shift, Photo-elasticity

Evaluating the distribution of birefringence enables the access to information about internal stress and molecular orientation in transparent materials.

Birefringence in material modifies the polarization of the light going through.

Thus, comparing light polarization in and out allows for measuring birefringence in the material.

Birefringence Measurement =Polarization Measurement + Difference Computation.

※A birefringence measurement system must be, as long as we talk about hardware, a polarization measuring device.

Computation Flow

①Polarization Measurement

②Phase Shift Computation (from change of polarization)

③Birefringence Computation （from phase shift and sample thickness)

④ Internal Stress Computation （from birefringence and photo-elastic constant）

Theoretically, computation of birefringence and internal stress is possible. However, because of the following
reasons birefringence measurement device usually provide data
for ② phase-shift only:
a. sample geometry data is not easy to manipulate in a universal manner
b. phase-shift data is often more relevant than birefringence for most applications
c. the cause of birefringence is rarely internal stress only, but a combination of factors
The user is then free to keep further the computations based on its own knowledge about his sample geometry and material.

## Category

• #Birefringence & stress strain measurement solutions
• #2-D Birefringence Measurement System
• #Birefringence Measurement System