This collection of coating designs demonstrates some of TFCalc 3.5’s features. These designs are included with the TFCalc 3.5 software. The design files contain comments that have more information about how the coatings were designed.
The plot below shows a 13-cavity, 359-layer BP filter created using the prototype method. This method is capable of creating a great variety of bandpass filters for any region of the spectrum.
Using TFCalc’s ultra-fast optimization targets, this 40-layer mirror was optimized to have high reflectance and a GDD (group delay dispersion) of -30 fs from 750 nm to 950 nm. It is very easy to design mirrors having other GDD performances.
Using cone-angle optimization targets, a 4-layer AR was optimized to have low reflectance in the range 450-650 nm for a cone of light having a half-angle of 30 degrees.
This 159-layer reflective GFF was optimized to have a high manufacturing yield. It was entered in the 2001 OIC design contest.
This 5-cavity, 173-layer bandpass filter was found by the TFCalc/WDM software. It has a group delay ripple of 7.6 ps, which is very low for such a narrow BP. It was entered in the 2001 OIC design contest.
This 87-layer filter seeks to control the group-delay ripple of the 5-cavity bandpass filter shown above. The heavy curve shows the reflectance of the combined filters. The thin curve shows the group delay of the combined filters. The GD ripple of the combined filters is about 0.32 ps, which extremely low. In this design, all but 16 layers are integer multiples of quarter-wave optical thickness. Designs similar to this one were entered in the 2001 OIC design contest.
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