Low power laser pointer design
The low power laser pointer chooses a pen design and the high power green laser pointer chooses a manual flashlight design to create more space for a larger laser module. As a thermal stabilization system, high-performance pocket lasers require more space. The pocket laser always offers the option of setting focus protection and security keys. The blue laser has a fascinating sapphire blue laser beam that is very popular with laser enthusiasts and professionals. Laser enthusiasts even use high-power blue lasers for various combustion experiments. If you're looking for a laser pointer or have a basic understanding of how spectrum works, each visible color has a specific wavelength (or frequency) that represents the actual length of the wave itself. Low wavelengths are long wavelengths and ultraviolet rays, such as 355 nm UV lasers, that are not visible to the human eye because they are not part of the visible spectrum. Then we have the visible spectrum that we can see, which is why we use individual colors and color combinations such as green, red, blue, yellow, purple etc. Then there are high wavelengths (short), namely infrared 800nm-2200nm, which is also used for the invisible to the human eye.
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The powerful green laser pointer is becoming increasingly popular. The green high powered laser is an astronomical observation assistant that points to stars and celestial bodies. Green lasers, emitting in the green part of the spectrum, are widely available to the public in a wide range of power. Compared to other wavelengths of the same power, green lasers emitting at 532 nm (563.5 THz) are relatively inexpensive and very popular due to their good beam quality and very high apparent brightness. Green lasers have a wide variety of uses including pointing, lighting, surgery, lasers, spectroscopy, interferometry, fluorescence, holography, machine vision, non-lethal weapons, and bird repelling. Put simply, 20,000 MW high-power lasers can be divided into three different types: high-energy lasers such as Bordeaux megajoule lasers, which are intended to simulate nuclear fusion weapons; Ultrashort pulse lasers such as the Attolab project, whose work is also in progress, emits very short, repetitive pulses that can "shoot" matter on an atomic time and space scale, ultimately high-intensity lasers and the like.
2021-12-30 13:22:22
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