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Military laser application in the military
Semiconductor lasers are widely used in military applications due to their compact size, long lifespan, ease of modulation, and cost-effectiveness. These advantages have made them a key component in various defense systems such as laser guidance, targeting, radar, fuze systems, ranging, communication, and gyroscopes. Many developed countries are actively investing in high-power semiconductor lasers for advanced military applications.
A semiconductor laser fuze is an active proximity fuze that uses laser technology to detect and track targets. It processes the reflected laser signals to determine the target's position and calculates the optimal detonation point. In case of failure or loss of signal, a self-destruct mechanism ensures the projectile is safely detonated. These fuzes represent one of the most successful implementations of laser detection in weapon systems.
Laser guidance allows missiles to follow a laser beam until they hit their target. This method, known as beam-riding guidance, involves emitting a modulated laser beam from a ground station. The missile detects any deviation from the beam’s center line and adjusts its course accordingly. Another technique, fiber-guided laser, uses optical fibers to transmit sensor data and control the missile remotely.
Laser ranging is crucial in anti-tank weapons, aviation, and aerospace. Semiconductor lasers offer stealth and accuracy, enabling precise distance measurements and digital display of distances with alarm alerts when safety thresholds are exceeded. They are also used in night vision systems, where high-power arrays allow monitoring up to 1 km, making them ideal for covert operations.
LIDAR (Light Detection and Ranging) systems using semiconductor lasers provide high precision, real-time imaging, and target tracking. They are used for atmospheric monitoring, collision avoidance, and terrain mapping. Their compact size and versatility make them suitable for both airborne and ground-based applications.
Laser simulation is a modern training method that uses semiconductor lasers to mimic weapon performance. Systems like MILES (Multiple Integrated Laser Engagement System) allow soldiers to train in realistic combat scenarios without live ammunition. Developed since the 1970s, these systems are now used by many countries around the world.
Deep-sea optical communication benefits from semiconductor lasers, which offer secure and interference-resistant transmission. Blue-green light (460–540 nm) is ideal for underwater communication, allowing submarines to communicate with satellites or aircraft carriers over long distances.
Semiconductor lasers are also used in aiming and warning systems. Infrared lasers are used with night vision goggles, while visible red lasers provide clear targeting. Lightweight laser sights, such as the FA-4, are widely used for precision shooting.
In satellite communications, semiconductor lasers enable high-speed data transmission with minimal power requirements. They are essential for inter-satellite and satellite-to-ground communication.
Overall, semiconductor lasers have revolutionized modern warfare, offering advanced capabilities in targeting, communication, and surveillance. Their continuous development ensures they remain at the forefront of military technology.