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A group of researchers, including Dr. Joel from the University of Queensland, have developed an endoscopic LED cold light source that can improve the echogenicity of medical imaging in the body, resulting in fewer invasive surgeries. Shenzhen Sunner Optoelectronics Co., Ltd.

This was first proposed in 1948, but has never been tested. The state of the new endoscope LED cold light source may lead to the development of 'ultra-thin' endoscopes that can reach areas that are rarely visited by humans, such as the interior of the brain.

The research team has created technology to capture images of deep skin tissue using ultra high bandwidth devices (CUDOS) from the central optical system. This method allows light waves, sound, or radio waves to pass through complex obstacles, which typically disperse the waves, but once the entire wave reaches its destination, the echo is free. The carpenter who designed and completed the experiment used the light wave ratio as a message to his friends at the end of the tunnel. Because of the way sound waves reflect walls and other objects, the information your friends receive may be distorted and they may not be able to understand you, 'the carpenter said. Now you can imagine having a horn or speaker with a special shape, where your sound enters a tunnel in a very special shape, so that to some extent there is no echo reaching the other end. We have proven the same idea, except for using light reflected inside the microscope fiber illumination.

We hope this will bring many new uses in the medical LED cold light industry, such as the ability to perform endoscopic LED cold light in brain regions, allowing for less invasive surgical procedures.

We have demonstrated this new phenomenon by using light waves for precise measurement in microscope fiber illumination, and by using microscope fiber illumination in both space and time. Then, we formulated what the laser beam needs to be, to produce beams of these shapes that do not echo each other, and put them into the microscope fiber illumination to confirm that all the light arrives at the other end at the same time

Although it is used by users, its principle also applies to other waves such as WiFi sound waves or radio waves, radio or mobile phone transmission. The endoscopic LED cold light source optical research technology can be applied to any application where the signal passes through a complex medium without being distorted by the 'echo'. Shenzhen Sunner Optoelectronics Co., Ltd. mainly focuses on the application of special LEDs and modules in the medical lighting and UV markets. If needed, please contact us: 183b341923@qq.com