The laser pointer market was recently added to its extensive repository. This intelligence report includes research based on current scenarios, historical records and future projections. In this research report, specific data on various aspects such as type, size, application and end user are examined. It provides a 360-degree overview of the industry's competitive landscape. SWOT analysis is used to understand the strengths, weaknesses, opportunities and threats faced by the company. Our lasers are generally best for burning, not because they are blue, but because they tend to be 1000mW or higher. As Blu-ray has become the dominant variety for movie data discs, the price of high power laser pointer diodes has dropped and the available power has increased. For this reason, most of the portable blue lasers available are 1000mW or higher, making them class IV and well suited for burning capabilities.
Blue lasers can reach 5,000W, so a high power blue laser pointer is usually used for maximum burning capability. All visible and invisible light (ultraviolet and infrared) that exists in the universe belongs to the electromagnetic spectrum. But the visible spectrum (source: NASA) is only a fraction of what we can see with the naked eye. Like: green grass, blue sky, red apples, purple grapes; think rainbows or prisms, or even OLED TV screens with all visible color profiles. Humans can generally see the wavelength range from 380 nm to 700 nm (NM: nanometer).
Color Contrast of Laser Beams
The 532nm green laser is 5x-7x brighter in color than any other laser of the same power. The sensitivity of our eyes peaks around green wavelengths. So a 500mW blue laser pointer will be brighter than a 500mW 445nm blue, 650nm red or 405nm violet laser. Therefore, green lasers are ideal for daytime outdoor use with powers over 300mW. If you're looking for a goose-controlled laser, make sure to use a green laser of no less than 300mW. Generally, the higher the power, the better the deterrent to outdoor geese. Green lasers have more scattering in the atmosphere, making them more suitable for astronomy and pointing out constellations in the night sky.
Light scattering gives you a more visible beam, which is great for pointing out certain objects in the sky at night. You can of course use other beam colors for astronomy, but green is usually better for visualization purposes.The short answer is no, color has nothing to do with burnability. In fact, you can have an infrared laser strong enough to burn things and completely invisible to the naked eye. So color doesn't really matter as far as the laser's ability to burn. Only mW force determines the burning capability of any Class IV laser at 500 mW or higher, which is best for burning.