"J-36 Fighter from X Screenshot. Image Credit: X Screenshot."(NationalSecurityJournal, China’s New Super J-36 ‘NGAD’ Stealth Fighters Are Coming)
Stealth is a proven effective tool for attack aircraft. Many attempts have been made to create systems that replace radars. Those systems are used. The optical- AI-boosted systems. Or quantum-size radar antennas. Also, things. UV-lidars and laser scanners can be used against stealth fighters. The IR sensor is ineffective against UV-laser scanners. Another thing that can uncover stealth aircraft. Are the micro-particles. The system uses the nanodust. That. The scanner systems observe to create undirected observations of the stealth systems.
When a stealth aircraft travels through those particles. It moves them. And the observer can see that effect. Another thing is that the modern stealth systems. Those that are in use require special materials. Those materials include nano-scale structures. This means that even a small damage, like a pistol shot or even a stone that hits the surface before rising from the airfields, can destroy the stealth ability. The plasma stealth uses a plasma system. That creates a plasma layer around the aircraft. That plasma denies radar echoes.
But it also denies the aircraft radar operations. The attack aircraft can use the terrain contour-matching system. To route it to the target. When we think. About the stealth and systems that try to detect it. Those systems. Use sensor fusion. Of multiple different types of scanners.
The system that sends radiation is always problematic. If the attack, or counter-attack system knows the radio, or radiation frequency, it can send anti-radiation missiles against stealth systems. The other tools are EMP. Microwave and laser systems that can destroy or damage a stealth surface.
The B-2 is an impressive tool. But. The problem is the age of that aircraft. Chinese new quantum radars that benefit from quantum entanglements can detect those stealth fighters. In some models. Those quantum radars can use the excitons. Or, helium, or deuterium atoms, there are two electrons orbiting the nucleus. Those electron pairs form the quantum-size Doppler radar. This means that. Those electron pairs can act as signal transmitters. And that. Makes it possible to create quantum-sized radar using an atom or an exciton.
Coatings have been a long-term issue for the B-2 until Northrop came up with new solution. (Representational image) (Interesting Engineering, B-2 bombers’ biggest opponent: Not enemy radar but rain used to erode plane’s stealthiness). Because B-2 must not get wet. Water destroys nano-scale structures on the stealth bomber's surface by filling the interstices between those structures.
That ultimate stealth aircraft requires a hangar. The requirement for hangar limits those aircraft’s operations.Because B-2 must not get wet. Water destroys nano-scale structures on the stealth bomber's surface by filling the interstices between those structures. That ultimate stealth aircraft requires a hangar. The requirement for hangar limits those aircraft’s operations.
J-36 Fighter. Image Credit: Screenshot from X.(NationalSecurityJournal, China’s New Super J-36 ‘NGAD’ Stealth Fighters Are Coming)
J-50 Fighter Image from X (NationalSecurityJournal, China’s New Super J-36 ‘NGAD’ Stealth Fighters Are Coming)
J-50 Fighter from China Weibo Image (NationalSecurityJournal, China’s New Super J-36 ‘NGAD’ Stealth Fighters Are Coming)
The stealth surfaces can turn incoming radio waves into radar.
The new surface materials. Fixes one bad lack. In the stealth material. The biggest problem with B-2 bombers is this. The B-2 stealth bomber must not get wet. The stealth material. Means material that has miniature, or nano-scale structures. Like nano-pyramids or nano scratches that scatter reflecting radiation. Water fills those structures, and that breaks. The stealth structure. Things like plasma stealth can be more effective. In those systems, the plasma layer around the aircraft denies a radar echo.
Chinese stealth aircraft's surface. It can turn incoming electromagnetic waves straight into electric power. That could revolutionize stealth technology. The ability to transform radar signals into electric power allows. To conduct that electricity into the battery. Or use it in microchips that control the active surface layer. If the layer can transform radio waves into electricity, and drive that electric power into a capacitor.
That makes it possible to deny radar echo from that system. The system can also transport electricity. That it stores. Into the battery in the avionics, and especially into the electric or electric-assisted jet engines. In those systems, the combustion is replaced by using electric arcs, or, otherwise, electric arcs increase the temperature in the combustion chamber. Another way to use that electricity is an ion system. That creates an ion layer between the jet fighter and the intercepting radars.
The new Chinese stealth fighters, or 6th-generation stealth fighters, are tools that can revolutionize the military world. The new Chengdu J-36 stealth fighters have improved AI. That AI-based system can transform them into drones. And this makes them effective attack systems. This means that those systems require human pilots only for air combat. Another test aircraft, Shenyang J-50, starts its flight tests.
https://defenceinnovationreview.com/2025/10/15/chinas-quantum-breakthrough-challenges-stealth-aircraft-dominance/
https://interestingengineering.com/military/b-2-bombers-biggest-opponent-rain
https://interestingengineering.com/military/china-6g-surface-turn-radar-beam-power
https://interestingengineering.com/military/china-sixth-gen-fighter-jet-development
https://nationalsecurityjournal.org/chinas-new-super-j-36-ngad-stealth-fighters-are-coming/
https://en.wikipedia.org/wiki/Chengdu_J-36
https://en.wikipedia.org/wiki/Exciton
https://en.wikipedia.org/wiki/Shenyang_J-50
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