What is Polarization: Definition and 662 Discussions

Polarization (also polarisation) is a property applying to transverse waves that specifies the geometrical orientation of the oscillations. In a transverse wave, the direction of the oscillation is perpendicular to the direction of motion of the wave. A simple example of a polarized transverse wave is vibrations traveling along a taut string (see image); for example, in a musical instrument like a guitar string. Depending on how the string is plucked, the vibrations can be in a vertical direction, horizontal direction, or at any angle perpendicular to the string. In contrast, in longitudinal waves, such as sound waves in a liquid or gas, the displacement of the particles in the oscillation is always in the direction of propagation, so these waves do not exhibit polarization. Transverse waves that exhibit polarization include electromagnetic waves such as light and radio waves, gravitational waves, and transverse sound waves (shear waves) in solids.
An electromagnetic wave such as light consists of a coupled oscillating electric field and magnetic field which are always perpendicular to each other; by convention, the "polarization" of electromagnetic waves refers to the direction of the electric field. In linear polarization, the fields oscillate in a single direction. In circular or elliptical polarization, the fields rotate at a constant rate in a plane as the wave travels. The rotation can have two possible directions; if the fields rotate in a right hand sense with respect to the direction of wave travel, it is called right circular polarization, while if the fields rotate in a left hand sense, it is called left circular polarization.
Light or other electromagnetic radiation from many sources, such as the sun, flames, and incandescent lamps, consists of short wave trains with an equal mixture of polarizations; this is called unpolarized light. Polarized light can be produced by passing unpolarized light through a polarizer, which allows waves of only one polarization to pass through. The most common optical materials do not affect the polarization of light, however, some materials—those that exhibit birefringence, dichroism, or optical activity—affect light differently depending on its polarization. Some of these are used to make polarizing filters. Light is also partially polarized when it reflects from a surface.
According to quantum mechanics, electromagnetic waves can also be viewed as streams of particles called photons. When viewed in this way, the polarization of an electromagnetic wave is determined by a quantum mechanical property of photons called their spin. A photon has one of two possible spins: it can either spin in a right hand sense or a left hand sense about its direction of travel. Circularly polarized electromagnetic waves are composed of photons with only one type of spin, either right- or left-hand. Linearly polarized waves consist of photons that are in a superposition of right and left circularly polarized states, with equal amplitude and phases synchronized to give oscillation in a plane.Polarization is an important parameter in areas of science dealing with transverse waves, such as optics, seismology, radio, and microwaves. Especially impacted are technologies such as lasers, wireless and optical fiber telecommunications, and radar.

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  1. K

    Polarization dependace of semiconductor optical amplifier (SOA)

    Hi, could you explain me polarization dependence of SOA amplifiers. and how to transfer the transverse electric (TE) mode to transverse magnetic (TM) mode. Are there any passive components to do it?
  2. B

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  3. S

    How Does Feynman's Definition of Photon Polarization Differ from Hecht's?

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  4. X

    Field strength giving rise to a polarization charge of -s.cos(theta) on a cavity

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  5. E

    What is the Resultant Polarization Angle for Two Perpendicular Harmonic Waves?

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  6. A

    A question about the polarization due to reflection

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  7. P

    How Do You Determine the Ellipse Parameters of Elliptically Polarized Light?

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  8. G

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  9. R

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  10. P

    What is vacuum polarization and vacuum de-polarization ?

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  11. F

    Light polarization (lab questions)

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  12. H

    Right handed vs Left handed circular polarization

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  13. JasonGodbout

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  14. edguy99

    Does polarization affect the results of the 2-slit experiment

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  15. V

    Understanding Polarization: Exploring the Properties of Light

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  16. D

    Entanglement and polarization

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  17. M

    Polarization in Interferometry

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  18. D

    Antenna Polarization and optical systems

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  19. D

    Rotate Photon Polarization: 90 Degrees?

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  20. S

    Why Does Reflected Light Get Polarized But Transmitted Light Does Not?

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  21. N

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  22. F

    Understanding Elliptical Polarization in Radio: Uses and Applications

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  23. F

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  24. S

    How Does Polarization Support the Wave Theory of Light?

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  25. J

    How Does the Heisenberg Uncertainty Principle Relate to Photon Polarization?

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  26. E

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  27. A

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  28. E

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  29. A

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  30. B

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  31. B

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  32. F

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  33. fargoth

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  34. J

    How Is Spin Polarization Represented by Four-Vectors in Quantum Field Theory?

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  35. C

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  36. Y

    Somethings to think about for polarization of light

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  37. A

    How to count polarization states of massive particles?

    I understand that a massless photon has two polarization states. But I do not understand why a massive spin=1 particle has three polarization states. Can anybody explain? Does the answer depend on the number of spacetime?
  38. M

    Definition of electric polarization

    I recently realized that I have never really seen a rigorous definition of the electric polarization field in matter (and for that matter, magnetization). On the one hand, I know what its physical meaning is, but on the other, I don't believe that I'll really trust it until I come up with one...
  39. S

    Polarization Ellipse: Understanding 2*Psi Angle

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  40. S

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  41. C

    Polarization change upon reflection

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  42. N

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  43. A

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  44. C

    Which direction is skylight polarized at sunset?

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  45. N

    Polarization Ellipse: Formula and Angle α Explained

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  46. V

    Understanding Polarization of Linearly Polarized Light: Explained by Experts

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  47. B

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  48. V

    Spin 1/2 in B-field polarization direction?

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  49. D

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  50. R

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