Applications

Laser cutting technology uses a high-energy-density laser beam as a "cutting tool" to perform thermal cutting on materials. It can cut various metals, non-metallic plates, precision PCBs, and many complex parts, and is widely used in fields such as automobiles, aerospace, and national defense.

Laser cladding is an advanced surface modification and additive manufacturing technology. It uses a high-energy-density laser as the heat source to rapidly melt cladding materials such as metal powders and wires, and simultaneously forms a dense coating with metallurgical bonding on the surface of the substrate. It is widely used in fields such as aerospace, metallurgy, energy, and machinery manufacturing.

Laser cleaning is an efficient surface treatment technology. It uses a high-energy laser beam to irradiate the surface of materials, and removes surface contaminants or coatings through optical, thermal, and chemical effects.

Laser welding technology belongs to fusion welding. It uses a laser beam as the energy source, which impacts the joint of the welded parts, melts the workpiece, and forms a specific molten pool to achieve the purpose of welding. It is widely used in fields such as automobiles, ships, aerospace, etc.

Laser drilling technology uses a high-power density laser beam to irradiate the material being processed, causing the material to be quickly heated to the vaporization temperature and evaporated to form a hole.

3D printing, or additive manufacturing, creates solid parts by layering materials. Based on 3D digital models, it uses lasers, hot melting and other methods to shape plastics, metals, resins and other materials. Requiring no traditional molds, it can quickly produce complex components and is widely applied in industrial manufacturing, healthcare, aerospace, cultural and creative industries.

Laser weeding is an intelligent physical weeding method based on artificial intelligence visual recognition and high-energy laser technology.

Consumer electronics covers laser-based manufacturing and processing applications for products like smartphones, smart watches, TVs and tablets. These devices are usually produced with high-strength, high-precision materials including tempered glass, sapphire and flexible materials.

Intelligent driving is a technology that enables vehicles to achieve autonomous perception, decision-making and control through sensors, AI algorithms, high-precision maps, V2X and other technologies.
Evolving from assisted driving to fully autonomous driving, it improves driving safety and eases traffic congestion, and is widely used in passenger vehicles, commercial vehicles and intelligent transportation.

Industrial measurement is a technical method for precision inspection, dimension calibration and quality control of industrial products, components and production processes.
With lasers, vision and sensing equipment, it achieves high-precision, non-contact and automated measurement, widely applied in product inspection, mold processing, aerospace and intelligent manufacturing to ensure product accuracy and stable production.

3D perception refers to the capability of acquiring and understanding 3D spatial information through sensors or algorithms, with its core lying in reconstructing the depth, shape and spatial relationships of objects. Its main technical approaches include:
Active Perception: LiDAR calculates distance by emitting laser beams and measuring reflection time; Structured Light analyzes deformation by projecting speckle patterns.
Passive Perception: Stereo Vision computes depth through parallax from dual cameras; Monocular Depth Estimation infers 3D information from 2D images using AI models.
Emerging Technologies: Event Camera adapts to high-speed scenarios based on dynamic pixel response; Neural Radiance Field (NeRF) renders high-fidelity 3D scenes via deep learning.

Lidar, also known as LIDAR (Light Detection and Ranging), is a radar system that uses laser beams to detect characteristic quantities such as the position and speed of targets. Its working principle is to emit laser beams and receive the reflected signals, and calculate the distance and three-dimensional structure of objects based on the time interval and intensity of the signals. The emitted laser beams can accurately range and image target objects, providing the system with accurate environmental information.

Laser obstacle avoidance is a technology that uses lidar or laser sensors to emit and receive reflected laser light, real-time obtain information such as the distance, position and contour of obstacles, and quickly judge and control equipment to automatically avoid obstacles through algorithms.
It has the characteristics of precise distance measurement, fast response, and strong anti-interference, and is widely used in scenarios such as intelligent robots, drones, intelligent driving, and AGV cars.

In the field of scientific research, semiconductor laser chips are used in various optical experiments and studies, such as spectral analysis and laser interferometry.

As core optoelectronic devices for information transmission, precision measurement and energy driving, laser chips are reshaping the functional and performance boundaries of aerospace systems across multiple fields including laser communication, fiber optic gyro navigation, sensor detection and industrial processing.

In the field of scientific research, semiconductor laser chips are used in various optical experiments and studies, such as spectral analysis and laser interferometry.

Laser diagnosis is a diagnostic technique that uses the properties of lasers to obtain information about the internal structure and function of biological tissues. This method analyzes tissue structure and disease processes by measuring indicators such as the microstructure, physiological functions, and concentrations of biochemical molecules in biological tissues.

Laser therapy uses laser as an energy carrier and utilizes photons to activate photoactive molecules, proteins, and pigments in tissues. It mainly includes photothermal therapy, photodynamic therapy (PDT), photoimmunotherapy, and low-level laser therapy (LLLT), etc.

Laser cosmetology is a medical cosmetology technology that can solve many skin problems, such as removing pigment spots, removing red blood streaks, and reducing wrinkles. This method uses the thermal energy emitted by the laser to act on the skin surface, which can effectively alleviate problems such as dull skin tone, pigmentation, and rough skin. It can also treat skin problems such as acne, moles, and age spots.