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. H

    Linear polarization in a glass prism

    Homework Statement Unpolarized light is reflected internally in the point P in a glass prism. When the prism is located in air, β is the critical angle of total reflection. I am going to calculate for the following problems: a) If the prism is submerged into water the reflected light becomes...
  2. Breo

    Feynman Diagrams: Polarization question

    Hello folks, I've just started to read "An Introduction to Quantum Field Theory by Peskin and Schroeder" and at the end of 6th page I could read: "... Since H_I should conserve angular momentum, the photon to which these particles couple must have the correct polarization vector to give it...
  3. X

    Dielectric Polarization Components in Ideal RC and C circuits

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  4. J

    How Does Polarization Change Upon Reflection and Refraction?

    http://en.wikipedia.org/wiki/Brewster%27s_angle The dipoles that produce the transmitted (refracted) light oscillate in the polarization direction of that light. Why? Does that last sentence actually say no light is reflected back if the angle of impact is orthogonal to the surface?
  5. E

    Radial polarization and optical vortex

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  6. J

    Polarization of a photon how do we know?

    Initial assumptions : 1. An unpolarised photon has 50% chance of being transmitted through a linear polariser. 2. When a photon meets a polarizer we subject it to an observation. 3. The effect being that we have forced it to collapse from being in the superposition of the vertical and...
  7. R

    Measuring polarization of a neutral object near a charged sphere

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  8. D

    Can a wire grid used for polarizing also cause diffraction?

    Just wondering, in order to polarize a light beam with a wire grid you could also get some difraction in despite of the wire's length, right? And, if so, will the difracted rays also be polarized?
  9. F

    Does White Light Really Exist as One Wave?

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  10. F

    P-N junction voltage under polarization

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  11. B

    Polarization and Bell measurments

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  12. DataGG

    Optics - right handed circular polarization

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  13. A

    How Can I Mathematically Represent the Polarization of a Laser Beam?

    Hi, I'm new to this forum, and I need some help with this. I want to determine the polarization of a laser beam, that is, the type of polarization (linear, elliptical), the angle of polarization (if it is linear). Then, I want to represent this mathematically. I used some linear polarizers to...
  14. G

    Polarization coincidence formula for known polarization?

    Two entangled photons from a same-polarization source have their polarization measured at 120 deg difference from each other. If I understood right all the simplified Bell-theorem and Bell-test explanations out there, QM and experiments say the chance for coincidence will be 25% no matter which...
  15. N

    Polarization of Laser vs Sunlight

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  16. Maxo

    How does the reflection of light at different angles affect polarization?

    Homework Statement Homework Equations The Attempt at a Solution I know that according to the Malus law formula, if the angle is 0 < θ < 90 then there is some transmission. But I need help understanding this physically. If we think of a polarizer/analyzer as a "lattice", i.e. kind of like...
  17. R

    Intensity of natural light after polarization

    I read that if a beam of unpolarized light goes through a polarizer, the intensity of the polarized beam is equal to half the intensity of the original beam. Can someone explain me why? I thought the intensity would be the same.
  18. J

    Does light intensity change with two polarizing sheets?

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  19. C

    Trying to understand particle polarization

    Hi, I'm trying to understand particle polarization. To my understanding if a particle is in a pure quantum state with non-zero spin (i.e. spin up) then it is fully polarized. If it is in a superposition of different spin states then it is weakly polarized and if its properties are uniform...
  20. A

    Does polarization change upon reflection?

    A simple question: is the polarization of light affected in any way upon reflection? What about upon refraction/diffraction? What interactions affect polarization?
  21. Choisai

    Difference between polarization and phase

    So I know how polaroids and 0.5λ plates work, but does this mean that the polarization of the light and the phase of light are the same, but that the polarization of light is actually a vector description of light? Or something like that? Are these two the same?
  22. U

    How Does Birefringence Influence Optical Devices?

    Homework Statement Part (a): Explain how birefringence adds phase difference. Part(b): Explain how the concept of birefringence is used in a beam splitter. Part (c): What's the orientation and retardance of retarder-1 to make both beams have same intensity? Part (d): What's the...
  23. G

    Polarization of Sky and Clouds

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  24. B

    How do GWs generate B-modes in the CMB polarization pattern?

    I have been searching through some of the literature, as well as this forum - but I have not found a clear explanation on how exactly the B-modes in the CMB polarization pattern are caused by gravitational waves. I have seen Wayne Hu's pages ( see for instance...
  25. Spinnor

    CMB polarization data plots, almost a vector field, then what?

    The data points of the polarization of the CMB are a magnitude and an orientation that varies between 0° and 180°. What kind of mathematical field is that, not quite a vector field? Thanks for any help!
  26. S

    Understanding Polarization at Different Phases?

    Describe the state of polarization represented by (here w = omega and TT = pi) a) Ex = Esin(kz - wt) & Ey = Ecos(kz - wt) b) Ex = Ecos(kz - wt) & Ey = Ecos(kz - wt + TT/4) c) Ex = Esin(kz - wt) & Ey = Esin(kz - wt)
  27. D

    Nonlinear optics: second order polarization calculation

    This is a problem from Boyd Nonlinear Optics chptr 1 problem 2. Homework Statement Numerical estimate of nonlinear optical quantities. A laser beam of frequency ω carrying 1 W of power is focused to a spot size of 30μm diameter in a crystal having a refractive index of n =2 and a second order...
  28. curious bishal

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  29. xortdsc

    No charge polarization on positronium in p-orbital state ?

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  30. D

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  31. M

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  32. I

    What are the two polarization states in 2D light?

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  33. T

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  34. J

    Can a Polarizer Change the Polarization State of a Laser Beam?

    Hi there all, I am a little confused about polarization. If I have a laser beam incident on a single polariser, if I adjust the angle of the polarizers transmission axis so that it is aligned with the plane of polarization of the incident laser beam does it intensity remain unchanged, or does...
  35. Spinnor

    Proton e goes to zero, smaller g, , vacuum color polarization.

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  36. Kelsi_Jade

    Dielectrics, heat capacity and polarization

    Consider a dielecrtic with polarization P=(a+b/T)\epsilon and heat capactiy C\epsilon=A+B\epsilon, where a and b are constants. Show that B=2bV/T2 and find the isothermal dielectric constant \kappael. Use properties of G(T,\epsilon) I'm really not sure where to start with this one. Any help...
  37. I

    Laser, polarization, radiation

    Homework Statement A powerful research laser produces pulses of light, wavelength 527nm, containing 300j of energy in 1.0x10^-9 seconds. and concentrated into an area with diameter 1.0x10^-4 m. Assume that the pulse is uniform over its area and uniform in time over its nanosecond...
  38. S

    Polarization of Electromagnetic Wave and Faraday's Law of Induction

    Homework Statement Hey guys. I have an electromagnetic wave traveling in the z direction and polarized in the x direction. The frequency is 1 MHz and average power density is 1 W/m^2. An antenna in the shape of a circular wire is in the xy-plane centred at the origin. I would like to use...
  39. E

    Calculating the Polarization of a Plane Wave in Electromagnetic Exercises

    Hello everybody :) I'm doing some electromagnetic exercises, but I got stuck in calculating the polarization of a plane wave. The complex field associated to the wave is the following \vec{E} = (\sqrt{2}\hat{x}+\hat{y}-\hat{z})e^{-2\pi 10^6(y+z)} = \hat{p}e^{-2\pi 10^6(y+z)} It is easy to...
  40. C

    Relaxation times/frequencies of Polarization Mechanisms

    Why do polarization mechanisms decrease with frequency in the following order: Space charge/Interface Dipole Ionic Electronic See page 3 in the attached document for reference. Edit: corrected error in wording
  41. C

    Interface (Maxwell-Wagner) Polarization and Dielectric Loss

    Maxwell-Wagner polarization is generally described in literature as the polarization of interfaces, such as grain boundaries, with an applied electric field. In the Wikipedia article (http://en.wikipedia.org/wiki/Maxwell–Wagner–Sillars_polarization), it's mentioned that "the charges are often...
  42. R

    Polarization and Azimuthal Angle

    Homework Statement Determine the state of polarization of the following wave and its azimuthal angle: ##E= \sqrt{3} E_0 \cos(kz-\omega t) \hat{x} + E_0 \cos(kz- \omega t + \pi) \hat{y}## The Attempt at a Solution How do I calculate the azimuthal angle? :confused: My textbook only says...
  43. D

    Find the dielectric flux and polarization values

    Homework Statement In a slab of Teflon (εr=2.1), the electric field is E= 6Ux+12Uy-20Uz V/m. Find D and P (BTW εr stands for the relative dielectric constant) Homework Equations D=(ε0)(εr)E P=D-(ε0)E The Attempt at a Solution (a)...
  44. D

    Polarization charge density

    Hello, Homework Statement We use an accelerator to uniformly implant electrons in a block of lucite, its surface is 25 cm², thickness 12mm. The current of the electron beam is 0,1 µA and the implantation takes 1s. The electrons are "trapped" in a layer of uniform density of 2mm thickness...
  45. i_amitabh

    Flipping a polarizer 180deg. changes polarization

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  46. S

    Understanding the Relationship Between EMR and Polarization

    Hi, I'm sorry this is a silly question. My basic understanding of EMR is that it is an oscillating electric field perpendicular to an oscillating magnetic field, and my basic understand of polarization is that it let's either horizontally or vertically oriented EMR through. How can that be if...
  47. F

    CMB polarization: the E and B modes

    Hi all! In Ruth Durrer's book "The Cosmic Microwave Background" there is this picture (Fig. 5.2 page 193) about the E and B mode of the CMB polarization: http://imageshack.us/photo/my-images/11/s7o6.png/ http://imageshack.us/photo/my-images/11/s7o6.png/ They represent the E and B...
  48. N

    Is My Laser Truly Vertically Polarized?

    I have a vertically linear polarized laser according to specs. "Polarization ratio 100:1; Vertical linear polarization". However, When I place a polarizer in front of the laser its maximum is at 132 deg. and minimum is at 42deg. Thats 90 degrees apart.. Placing two polariazer infront of...
  49. Astrum

    Electric Field of a Polarized Sphere with Nonuniform Polarization

    Homework Statement A sphere of radius R carries a polarization of \vec{P} = k \vec{r}, where k is a constant and \vec{r} is the vector from the center. Find the bopund charges, and the field inside and outside the sphere Homework Equations - \nabla \cdot \vec{P} \sigma _b = \vec{P} \cdot...
  50. M

    Curl of the Polarization (Electrostatics)

    I've been reading Griffith's "Introduction to Electrodynamics" and I've got to this part where it says: "When you are asked to compute the electric displacement, first look for symmetry. If the problem exhibits spherical, cylindrical, or plane symmetry, then you can get \vec{D}directly from...
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