Comparison of Ellipsometry and Spectral Reflectance
Both Spectroscopic Ellipsometry (SE) and Spectral Reflectance (SR) analyze reflected light to determine the thickness and refractive index of dielectrics, semiconductors, and thin metal films. The primary difference between the two techniques is that SE uses light reflected off the film at a low incident angle, while SR uses light that is reflected perpendicular (normal) to the film.Get Spectral Reflectance Guide
This difference in the incident-light angle leads to differences in the cost, complexity, and capabilities of the two techniques. Since an ellipsometer’s light is incident at an angle, it must analyze the polarization of the reflected light, as well as its intensity, which gives it better capabilities for measuring very thin and complicated film stacks. Analyzing the polarization, however, also means that expensive, precision-moving optical components are required.
By using light that is perpendicular to the film, SR can ignore polarization effects (since most films are rotationally symmetric). Thus, SR can be realized without any moving components, which results in much simpler and lower-cost instruments. SR systems can also easily include transmittance analysis for even greater power.
Referring to the table below, SR is usually the preferred technique for films greater than 10um, while SE is generally preferred for films thinner than 10nm thick. Between these two thicknesses, there are many applications where both techniques can be used. When this is the case, SR is often chosen due to its speed, simplicity, and low cost.
|Thickness Measurement Range:||
1nm - 1mm (non-metals)
0.5nm - 50nm (metals)*
0.1nm - 0.01mm (non-metals)
0.1nm - 50nm (metals)
|Thickness Required for Index Measurement:||
5nm - 50nm (metals)
|Measurement Speed:||~0.1 - 5 seconds per location||~1 - 300 seconds per location|
|Special Training:||No||Req'd for most applications|
|Moving Parts:||No||Moving precision optics|
|Price of Basic System:||~$13K||~$40K|