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Linear polarizers allow light waves to pass through in a certain plane, reducing glare and controlling light intensity. Different types include dichroic, reflection, double refractive, and beam splitting polarizers. They can be used to eliminate reflections, increase color saturation, and simulate animation.
A linear polarizer is often used in sunglasses, camera lenses, projection filters, and other materials to allow light waves traveling in a certain plane to pass through it. Light typically loses about half its intensity by the time it reaches the other side of an object. It can also be oriented horizontally or vertically, or other angles in between, by linear polarization depending on the angle of the polarizer. The device can be used to minimize glare, control light intensity, or eliminate light to make colors more vibrant. Various types of linear polarizers are available, including dichroic, reflection, double refractive and beam splitting polarizers.
The characteristics that generally define a linear polarizer are its transmission and absorption capabilities. An axis of transmission, which often varies with the grade of the polarizer, is what determines how much light can pass. The absorbent axis does not allow light to pass through the barrier. You can use two polarizers at 90° angles to each other so that no light passes through to the other side.
Dichroic polarizers can absorb polarized light waves oriented in a particular direction. Such varieties of linear polarizers can be made from polyvinyl alcohol or a laminated polymer film. When placed between anti-reflective glass, they can be used for applications using infrared light. Reflective polarizers work by reflecting unpolarized light off a smooth surface, which is usually non-metallic. The level of polarization can vary based on how the surface refracts light and at what angle it is reflected from the device.
A double refractive linear polarizer can split a beam of light in two. Both of these rays are generally of the same intensity, which is often obtained from quartz and other crystals found in the environment. Similarly, a beam-splitting polarizer creates two linearly polarized beams of light. One ray continues in a straight line while the other is directed perpendicular to the other. Most polarizers are usually offered in various sizes depending on the use they are being used for.
Often, a linear polarizer can be used to eliminate reflections from the water. It can also increase color saturation, which is useful for reducing the effect of reflections created by atmospheric effects such as haze. A linear polarizer can also be used in the light filter of a camera or manufacturing machinery used for imaging applications. It can also be used to simulate animation by incorporating multiple axes to create a motion effect.
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