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d)$E_x=E_0\sin(wt+kz), E_y=E_0\sin(wt+kz+\frac {\pi}{4})$ This one looks quite similar to the previous case, except for the phase. There is a pesky phase added to the y-component. What does that do? It turns out that this is also an elliptic polarization. This technique applies a quarter of a wavelength shift to one of the components, which causes the polarization to become elliptic. See Polarization types for details. To be more precise, in this case we have an eigth of a wavelength added. The effect is still the same. That is, an elliptical polarization is produced. The difference between this ellipse and that of a) is that the ellipse in a) will have its major and minor axes aligned with the directions of x and y axes (as seen on the plane perpendicular to the direction of propagation), whereas the one in d) will have its axes rotated relative to x and y axes by some angle.

c)$E_x=E_1\sin(wt+kz), E_y=E_2\sin(wt+kz)$ This is a linearly polarized field because $sin(wt)$ can be treated as a variable $\theta = sin(wt)$ for both components. That is, in-plane, the tip of this vector goes back and forth along a straight line. By tweaking the values of $E_1$ and $E_2$ one can change the direction of this line. For example, if $E_1 = 0$ then the light is polarized along the y-axis.

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This has always been confusing to me, I have referred online from various sources regarding this yet I come across equations with description that sometimes seems to contradict what I have learned. I would hence like to get a summary of what these polarizations are and how they are represented in equations. So the various polarizations are: Plane polarized, Linearly polarized, Circularly polarized, Unpolarized and elliptically polarized. I will list out some pairs of equations so that it could be useful for someone to explain it.

I am not sure if there is a precise algorithm for determining the type of polarization. After all, there is an infinite number of possible polarizations. However, you can usually gather a lot about the polarization in question by looking at the waveforms of the electric field. Namely, you want to look at the shape of the waveform, the amplitude accompanying that shape, as well as the phase of the waveform.

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AV Nesterov · 2000 · 288 — Laser beams with axially symmetric polarization, A V Nesterov, V G Niziev.

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What's more, it helps to conduct this analysis after imagining the oscillations as projected on the plane perpendicular to the directions of oscillation of the given electric field components. In your case, it will be the z-axis. Of course, this is the same as saying that you want to look at Lissajous curves

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b) $E_x=E_0\cos(wt+kz), E_y=E_0\sin(wt+kz)$ Suppose you only consider $E_x=E_0\cos(wt), E_y=E_0\sin(wt)$ since all $kz$ is telling you is that the wave is propagating along z-axis. Once you remove that, you see that these components will make the tip of the $\vec{E}$ vector trace out a circle in the plane perpendicular to the direction of propagation. We know it is a circle because the amplitudes of the components are equal.

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a) $E_x=\frac {E_0}{\sqrt2}\cos(wt+kz), E_y=E_0\sin(wt+kz)$ Here, the idea is the same, except the amplitudes are not equal. This means we have a distorted circle! That is, of course, an ellipse!