Photo of blue beam from a 100 mW Argon laser and a green beam from a 3 mW green HeNe laser and a red beam from a 7 mW red HeNe laser entering a wavelength combiner coupler which combines the three colors to form a white beam exiting the coupler. Surface first mirrors where used to position the beams. The HeNe lasers and optics are placed on a glass table and a fogger was used for effect. | |
Photo of blue beam from a 100 mW Argon laser and a green beam from a 3 mW green HeNe laser and a red beam from a 7 mW red HeNe laser entering a wavelength combiner coupler which combines the three colors to form a white beam exiting the coupler. Surface first mirrors where used to position the beams. The HeNe lasers and optics are placed on a glass table and a fogger was used for effect. | |
Photo of blue beam from a 100 mW Argon laser and a green beam from a 3 mW green HeNe laser and a red beam from a 7 mW red HeNe laser entering a wavelength combiner coupler which combines the three colors to form a white beam exiting the coupler. Surface first mirrors where used to position the beams. The HeNe lasers and optics are placed on a glass table and a fogger was used for effect. The combined beam is reflected in front of camera lens which created an out of focus haze in front of the setup. | |
Photo of blue beam from a 100 mW Argon laser and a green beam from a 3 mW green HeNe laser and a red beam from a 7 mW red HeNe laser entering a wavelength combiner coupler which combines the three colors to form a white beam exiting the coupler. Surface first mirrors where used to position the beams. The HeNe lasers and optics are placed on a glass table. The Argon laser is placed on the floor and projected up through the table (left). The white beam is sent through a diffraction grating to split the wave lengths into their component wavelengths. A fogger was used for effect. | |
The combined red, green, and blue lasers are sent through diffraction gratings and split into their component wavelengths. The center beam is the combined beam. | |
The combined red, green, and blue laser beams are sent through prism and split into their component wavelengths. |