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Success Lies In High-resolution Green Laser Pointer

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The success of this process lies in the high-resolution green laser pointer 3D printing process. This is done by using a relatively low intensity near-infrared light source. Photopolymerization can also occur deeper in the resin tank, which gives the technology the potential for 3D printing in biological tissues. The upconversion glow comes from Stokes's law. Stokes's law states that materials can only be excited by high-energy light and emit low-energy light, in other words, high-frequency light with a short wavelength and low-frequency light with a long wavelength are excited. For example, ultraviolet light excites visible light, or blue light excites yellow light, or visible light excites infrared light. But later people discovered. In fact, some materials can achieve the green laser pointer lighting effect which is just the opposite of the above law. So it is called anti-Stokes luminescence, also known as up-conversion luminescence.

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This technology can be used in biomedical fields, including tissue engineering green laser pointers. And it is used in the application field of replacing damaged parts of organs and tissues with polymer materials. Conventional two-photon lithography uses thin glass slides, lenses, and immersion oil-assisted laser for additive manufacturing to focus the laser at the point where it needs to be cured. Two-photon lithography differs from other additive manufacturing technologies in that it has higher processing resolution. This technology can produce green laser pointers with smaller features. Therefore, its processing resolution is unmatched by other additive manufacturing technologies.

2020-01-17 02:37:22

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