How bright? That is purely subjective. SureFire scientist Dr. Peter Hauk (Peter Hauk) is engaged in industrial Laser pointer research at Newport Corp.. Xingang is a global pioneer in the field of laser products and development. He cannot tell how bright the green laser is. “How old is the eyeball? Twenty? Thirty? Forty? Sixty?” Hauk responded. “The subjective impression cannot be quantified.”
Leading green laser manufacturer Laser Devices pointed out that the brightness of green lasers is five times that of red lasers. Hauk agreed that under all conditions, the brightness of a green light source is approximately six times that of a comparable red light source. However, other manufacturers claim that the brightness of the green laser is 50 to 600 times that of the red laser engraver. I think these exaggerated figures are very absurd, but there is no doubt that green is “brighter” than red. Perception is reality, which is good news.
This announcement was produced by the Laser Society of America. It can be freely copied and distributed without further permission from LIA.
Pranks and children sometimes go hand in hand. For example, when digital watches become cheap enough that every school-age child can have them, children will use glass to illuminate other students, teachers, and objects.
The process of making infrared and red VCSELs is first to obtain a plate of gallium arsenide crystal (GaAs), and then grow alternating GaAs layers on top of it, and (depending on the emission wavelength of the blue laser pointer) aluminum arsenide (AlAs) or alloy aluminum arsenide Gallium (AlGaAs). This layer stack acts as the first mirror. Then add the cavity containing the light-emitting area, and then add the layers that make up the second mirror (Figure 1b). In order to accurately determine the position of the light emitted from the VCSEL, a circular aperture is constructed by selectively oxidizing the aluminum-rich layer under the top mirror from the outside. The process continues until only unoxidized pores of a few microns in diameter remain. Since the hole is the only part of the layer through which current can pass, the local current density rises high enough to start lasing.