Time:2023-10-18 21:31:23
laser innovation: breakthrough and application of lattice technology
laser technology, as a light source with high intensity, high directivity and high monochromaticity, is widely used in medical treatment, communication, manufacturing and other fields. In recent years, the breakthrough and application of laser lattice technology has aroused widespread concern. By controlling the shape and arrangement of the laser beam, the laser lattice technology enables the laser to be projected in the form of a lattice, which brings a lot of innovation to the applications in various fields. One of the most well-known application fields of
laser lattice technology is laser projection. The traditional projection method uses transparent liquid crystal or fluorescent material for projection. The laser lattice technology is to modulate the laser beam and project the laser to the screen in the form of a lattice. This method can achieve higher resolution and color saturation, make the projected image clearer and real, and greatly improve the viewing effect. At the same time, due to the high intensity and brightness of the laser, it can be clearly visible even in a bright environment. Therefore, in outdoor billboards, large-scale performances and other occasions, laser lattice projection technology has also been widely used. In addition to laser projection,
laser lattice technology can also be used in image processing, especially in the field of 3D imaging. Traditional 3D imaging usually requires special projection instruments or auxiliary tools such as red and blue glasses. The laser lattice technology can make human eyes have a three-dimensional sense when watching by cross-projecting multiple lasers. This way can greatly improve the experience effect of watching, and does not need any auxiliary tools. In the medical field, laser lattice technology can also be used in surgical navigation system to help doctors locate and operate more accurately.
in addition, laser lattice technology can also be used in the field of sensors. Traditional sensors are usually measured based on electromagnetic wave or photoelectric effect, while laser lattice technology can project a laser lattice on the surface of an object and measure the reflection of laser on the surface of the object. in order to obtain the shape and texture information of the object. This method can realize non-contact measurement and avoid the interference and damage that may occur in the traditional measurement methods. Therefore, laser lattice sensor also has a wide application prospect in the fields of robot navigation, industrial detection and so on. The breakthrough and application of
laser lattice technology are still in continuous development and innovation. For example, in the field of virtual reality and augmented reality, laser lattice technology can enable users to perceive and interact virtual objects in real time by projecting dots in the air. In the field of laser manufacturing, laser lattice technology can be used in increasing material manufacturing and laser melting to achieve a finer and more efficient manufacturing process.
in a word, laser lattice technology has become a hot spot in the laser field because of its unique advantages and rich application potential. From laser projection to image processing, from sensors to virtual reality, laser lattice technology can bring innovation and improvement in various fields. With the continuous development and breakthrough of technology, it is believed that laser lattice technology will make more breakthroughs and applications in the future, and bring more convenience and surprise to people’s life and work.
laser technology, as a light source with high intensity, high directivity and high monochromaticity, is widely used in medical treatment, communication, manufacturing and other fields. In recent years, the breakthrough and application of laser lattice technology has aroused widespread concern. By controlling the shape and arrangement of the laser beam, the laser lattice technology enables the laser to be projected in the form of a lattice, which brings a lot of innovation to the applications in various fields. One of the most well-known application fields of
laser lattice technology is laser projection. The traditional projection method uses transparent liquid crystal or fluorescent material for projection. The laser lattice technology is to modulate the laser beam and project the laser to the screen in the form of a lattice. This method can achieve higher resolution and color saturation, make the projected image clearer and real, and greatly improve the viewing effect. At the same time, due to the high intensity and brightness of the laser, it can be clearly visible even in a bright environment. Therefore, in outdoor billboards, large-scale performances and other occasions, laser lattice projection technology has also been widely used. In addition to laser projection,
laser lattice technology can also be used in image processing, especially in the field of 3D imaging. Traditional 3D imaging usually requires special projection instruments or auxiliary tools such as red and blue glasses. The laser lattice technology can make human eyes have a three-dimensional sense when watching by cross-projecting multiple lasers. This way can greatly improve the experience effect of watching, and does not need any auxiliary tools. In the medical field, laser lattice technology can also be used in surgical navigation system to help doctors locate and operate more accurately.
in addition, laser lattice technology can also be used in the field of sensors. Traditional sensors are usually measured based on electromagnetic wave or photoelectric effect, while laser lattice technology can project a laser lattice on the surface of an object and measure the reflection of laser on the surface of the object. in order to obtain the shape and texture information of the object. This method can realize non-contact measurement and avoid the interference and damage that may occur in the traditional measurement methods. Therefore, laser lattice sensor also has a wide application prospect in the fields of robot navigation, industrial detection and so on. The breakthrough and application of
laser lattice technology are still in continuous development and innovation. For example, in the field of virtual reality and augmented reality, laser lattice technology can enable users to perceive and interact virtual objects in real time by projecting dots in the air. In the field of laser manufacturing, laser lattice technology can be used in increasing material manufacturing and laser melting to achieve a finer and more efficient manufacturing process.
in a word, laser lattice technology has become a hot spot in the laser field because of its unique advantages and rich application potential. From laser projection to image processing, from sensors to virtual reality, laser lattice technology can bring innovation and improvement in various fields. With the continuous development and breakthrough of technology, it is believed that laser lattice technology will make more breakthroughs and applications in the future, and bring more convenience and surprise to people’s life and work.
