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The new system is part of the “Lijian” (roughly translated as “sharp swords”) range of lasers, which can allegedly shoot down drones at ranges up to 3,900 feet (1,200 meters). Being much smaller, this new portable version can’t quite reach those ranges, however.
Like its bigger brothers, the new system works by focusing a laser beam on a distant target, like a drone. The beam can then burn through wires, damage sensors and cameras, or overheat battery packs.
The theory is that once a critical part fails, the drone crashes. This capability is something many militaries are already rushing to develop, but the real breakthrough here is the unit’s size and weight.
According to reports, they are small enough for a single soldier to manipulate in the field. The Lijian II, for example, comes in at around 66 pounds (30 kg), with the Lijian III around 55 pounds (25 kg).
To put that into perspective, that is roughly equivalent to carrying a machine gun plus ammunition and batteries. Still heavy, but much lighter than vehicle-mounted systems.
In the field, such systems would likely comprise a backpack that contains batteries and cooling systems. The soldier can then deploy the platform, which then tracks and targets drones visually or with optics.
All well and good, but lasers of this kind generally need a lot of power to actually work. While no technical details have been publicly released, laser weapons typically require between 20 and 50 kW.
They also require beefy cooling systems. This appears to have been solved, with reports being circulated that claim it can cool down in under 5 seconds. But again, how this was achieved has not been made public.
This all sounds impressive enough, but even futuristic weapons like lasers are not foolproof on the battlefield. They are, for example, highly susceptible to changes in weather like rain and fog, and other battlefield conditions like smoke, dust, etc.
Any of these can scatter the laser beam, subsequently dropping its effectiveness against a target. Lasers are also highly reliant on “line of sight” and must be able to see a target to hit it.
Any obstacles in the way, like buildings, hills, trees, etc, render them ineffective. There is also the issue that lasers must remain “locked” to a target for some time to be effective.
Ballistic weapons, like guns, deliver their full destructive potential on contact, while lasers need some time to do the damage. A fast-moving or maneuvering drone could, in theory, make this harder.
It is also not clear how such a small system could handle drone swarm attacks. Whatever the case may be, the new system could be an interesting evolution in anti-drone warfare.
If systems like this prove reliable, infantry units may eventually carry laser anti-drone weapons in the same way they carry machine guns or anti-tank missiles today.
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Christopher graduated from Cardiff University in 2004 with a Masters Degree in Geology. Since then, he has worked exclusively within the Built Environment, Occupational Health and Safety and Environmental Consultancy industries. He is a qualified and accredited Energy Consultant, Green Deal Assessor and Practitioner member of IEMA. Chris’s main interests range from Science and Engineering, Military and Ancient History to Politics and Philosophy.
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