A test fixture was built to hold the laser, color filter and solar cell. The energy of the laser was first measured without a color filter in millivolts for 3 seconds with the solar cell. I then placed a color filter in the test fixture. Lastly, I measured the energy of the laser with the color filter in millivolts for 3 seconds. I repeated the measurement process five times for each of 12 different color filters. A 645 nm red laser and a 532 nm green laser were tested using this procedure.
The percent of laser beam energy passing through the color filters at laser wavelengths was 100% for the red laser and 80% for the green laser. With both lasers the 490 nm blue filter blocked the most energy. The green and red lasers reacted to the color filters producing varying results that were not what I predicted.
I determined that both points of my hypothesis were not correct. I found out a color filter of the same wavelength as the laser beam did not block the most energy. I also found the energy did not decrease with color filter wavelength decreases. I determined the energy is partially dependent on wavelength but more dependent on the optical density of the color filters.
This project was on testing the affect of color filters on laser beam energy.
Science Fair Project done By Ryan O. Brottlund