After rebirth, I started a life of attributes

In order to solve the problem of physical stealth of fighter jets, Chen Feng and Li Nian decided to return to the research of optical stealth and thermal infrared stealth.

Optical invisibility, as the name suggests, makes objects invisible to light by changing the path of light propagation.

Chen Feng and Li Nian first studied the technology of optical cloaking. They designed a special optical cloaking material that can absorb light and refract it around objects.

However, when they applied this material to the surface of a fighter jet, they found that it could only be invisible to visible light, but could not achieve the cloaking effect for other wavelengths of light, such as infrared and ultraviolet.

This means that during the day or in an environment with light sources, a fighter jet can be invisible, but at night or in an environment without a light source, the fighter's stealth effect will be greatly reduced.

Then, Chen Feng and Li Nian turned to the research of thermal infrared invisibility. Thermal infrared invisibility makes the object invisible in thermal infrared rays by adjusting the temperature distribution of the object.

Chen Feng and Li Nian designed a special thermal infrared invisible material that can absorb the heat of an object and dissipate it, thereby reducing the temperature of the object.

However, when they applied this material to the surface of a fighter jet, they found that it could only be invisible to thermal infrared rays, but could not achieve the cloaking effect for other wavelengths of light, such as visible light and microwaves.

This means that a fighter jet can be invisible in front of a thermal infrared detector, but in front of other detectors, the fighter's stealth effect will be greatly reduced.

Chen Feng and Li Nian conducted in-depth research and experiments on these two stealth technologies, but they found that neither optical stealth nor thermal infrared stealth can achieve the physical stealth of fighter jets.

This is because the physical stealth of a fighter jet needs to meet multiple conditions at the same time. For example, it can be invisible to light of wavelengths such as visible light, infrared, and microwave, and it can maintain a stable stealth effect under different environments and conditions.

Existing optical stealth and thermal infrared stealth technologies can only meet some conditions, but cannot meet all conditions at the same time.

Chen Feng and Li Nian were deeply confused, and they began to reflect on their research directions and research methods.

They realize that in order to achieve physical stealth of fighter jets, they may need to find a new stealth technology, or innovate and improve existing technology.

Therefore, Chen Feng and Li Nian decided to temporarily put down their research, re-examine the entire problem, and find new solutions.

During this process, Chen Feng and Li Nian continued to learn and explore, and they gained an in-depth understanding of many related disciplines and fields, such as optics, thermodynamics, electromagnetism, etc.

They begin to think about problems from a broader perspective and try to find interdisciplinary research methods and solutions.

After a period of thinking and exploration, they finally found a new research direction, which is to use quantum teleportation technology to achieve the physical invisibility of fighter jets.

Quantum teleportation is an invisibility technology based on the principles of quantum mechanics. It can transmit the quantum state of an object to another place, thereby making the object invisible.

Chen Feng and Li Nian decided to apply this technology to fighter stealth research. They designed a fighter stealth solution based on quantum teleportation.

This solution uses quantum teleportation technology to transmit the quantum state of the fighter to another place, thereby achieving the physical invisibility of the fighter.

Chen Feng and Li Nian conducted in-depth research and experiments on this new solution. They found that it is feasible to use quantum teleportation technology to achieve physical invisibility of fighter jets.

However, this technology still faces many challenges and difficulties, such as transmission distance limitations, quantum state stability and security, etc.

It is not easy to achieve the physical stealth of a fighter jet, and research on supersonic stealth fighters has once again stalled.

Although there are many problems with quantum teleportation technology, they decided to start with quantum teleportation technology and try to use quantum teleportation technology to solve the physical invisibility problem of fighter jets.

To this end, Chen Feng and Li Nian began to study quantum teleportation in depth, read a large amount of relevant literature, and conducted countless discussions and simulation experiments. They gradually mastered the basic principles of quantum teleportation and began to design their own experimental plans.

Chen Feng and Li Nian's first quantum teleportation design is based on the principle of quantum entanglement. It is planned to use entangled photon pairs to achieve physical cloaking of fighter jets. They designed a special device that connects the fighter's surface with pairs of entangled photons. However, they soon discovered that this design could not achieve physical stealth for the fighter jet.

The reason is that the quantum state of the entangled photon pairs will be disturbed and attenuated during the transmission process, making it impossible to accurately reconstruct the quantum state of the fighter jet. This caused their first design to fail.

Chen Feng and Li Nian did not give up. They decided to try another quantum teleportation design. Turned to another way of quantum teleportation - using the superposition and measurement of quantum states.

Chen Feng and Li Nian designed a complex experimental device to measure the fighter's quantum state and transmit it to another location, and then reconstruct the fighter's physical invisibility through quantum calculations.

However, they ran into problems again. In experiments, they found that it was impossible to accurately measure and transmit the fighter's quantum state. This is because the quantum state of the fighter jet will change during high-speed movement, making it impossible to accurately capture and reconstruct it. This resulted in the failure of their second design.

Chen Feng and Li Nian were in trouble. They realized that traditional quantum teleportation technology could not solve the physical invisibility problem of fighter jets. They began to re-examine the problem and consider whether there were other ways to achieve physical cloaking of fighter jets.

They began to study related knowledge of quantum field theory and quantum gravity, trying to find a new quantum teleportation technology. They gradually discovered that virtual particles in quantum field theory and space-time curvature in quantum gravity may provide new ways to achieve physical invisibility of fighter jets.

However, after in-depth study of the space-time curvature of virtual particles and quantum gravity, Chen Feng and Li Nian immediately rejected this plan.

With the current human technology, it is impossible to achieve the physical invisibility of fighter jets by relying on the curvature of space and time of particles and quantum gravity. If we want to achieve the physical invisibility of fighter jets, we still have to start from other directions.

After thinking about it, Chen Feng finally felt that in order to achieve physical invisibility of fighter jets, he still needed to return to the essence of invisibility, that is, he needed to start with materials that can achieve physical invisibility.

After it was clear that they wanted to find a breakthrough in materials, Chen Feng and Li Nian began a lot of research work. They read a lot of literature, conducted countless experiments, and tried a variety of different materials and compounds. During the research process, Chen Feng and Li Nian discovered a special coating pigment that has unique optical properties and can make objects physically invisible to a certain extent. They further studied and found that this coating pigment can control the propagation of light by changing its surface structure, thereby achieving an invisible effect.

Chen Feng and Li Nian were very excited about this discovery, and they began to conduct in-depth research and improvement on this coating pigment. After continuous attempts and experiments, they successfully developed two coating pigments that can achieve physical invisibility.

The first coating pigment is "Invisible Blue", which has excellent light-absorbing properties and can make objects almost completely invisible when illuminated by light. This coating pigment works by absorbing light and reducing reflection and scattering, making the object less visible to light.

The second coating pigment is "Invisible Green", which has excellent scattering properties and can make objects appear transparent when illuminated by light. This coating pigment works by scattering light so that it travels in different directions, thereby reducing the visibility of the object.

Unlike "invisible blue", "invisible green" does not absorb light directly, but achieves the effect of invisibility by scattering light. This kind of coating pigment can make objects show different visual effects under different angles of light, thus achieving a certain degree of invisibility.

However, Chen Feng and Li Nian soon discovered that although these two coating pigments can achieve physical invisibility, they cannot achieve self-controlled invisibility. That is, they cannot automatically adjust their stealth effects to the fighter's needs and require manual intervention.

The emergence of this question made Chen Feng and Li Nian fall into deep thought. They realized that if self-controlled invisibility cannot be achieved, the application of this coating pigment will be greatly limited. They decided to continue their research to find a material that could control its invisibility.

Chen Feng and Li Nian re-examined their research process and began to look for new ideas and methods. They began to study light-controlled materials, which can change their properties according to the irradiation of light, thereby achieving self-controlled invisible materials.

In order to find a light-controlled material that can achieve invisible self-control, Chen Feng and Li Nian started a lot of research.

During the research process, Chen Feng and Li Nian first conducted an in-depth exploration of the theoretical basis of light-controlled materials. They studied optical phenomena such as light propagation, reflection, refraction, and scattering, and analyzed the response characteristics of various materials to light. Through these studies, they gradually clarified the design requirements and potential application scenarios of light-control materials.

Next, Chen Feng and Li Nian began to try to synthesize various materials with light control properties. They used a variety of chemical methods and processes, such as sol-gel method, chemical vapor deposition, molecular beam epitaxy, etc., to prepare a series of samples with different optical properties.

They then conducted detailed optical property tests on these samples, such as spectral reflectance, light absorption coefficient, light scattering coefficient, etc., to evaluate their light control performance.

Among many samples, Chen Feng and Li Nian discovered a special light-controlling material with extremely high light absorption coefficient and extremely low light scattering coefficient.

This material can achieve precise control of light within a specific wavelength range, allowing light to produce near-perfect absorption and scattering effects on the surface of objects. They realized that this material was the invisible material they had been dreaming of.

In order to verify the actual stealth effect of this light-controlled material, Chen Feng and Li Nian applied it to a prototype of a supersonic stealth fighter.

They designed a special coating system to evenly coat the light control material on the surface of the fighter jet. Then, they conducted multi-angle, multi-wavelength, and multi-intensity light irradiation tests on the fighter jet in an experimental environment.

Test results show that the surface of this fighter jet achieves almost perfect stealth effect when illuminated by light.

Within a specific wavelength range, the reflectivity and scattering rate of the fighter jet are reduced to extremely low levels, causing light to produce near-perfect absorption and scattering effects on the surface of the object.

This means that the fighter jet is almost undetectable by enemy radar and optical detection systems, thereby greatly improving its survivability and penetration capabilities.

In addition, Chen Feng and Li Nian also discovered that this light-controlling material has adaptive properties. It can automatically adjust its optical performance according to changes in ambient light, allowing the fighter jet to always maintain the best stealth effect under different lighting conditions.

This characteristic makes light control materials more reliable and adaptable in practical applications.

The "photo-invisible" light-control material successfully developed by Chen Feng and Li Nian provides strong technical support for the development of supersonic stealth fighters.

This material has the ability to precisely control light, which can realize the self-controlled stealth of fighter jets and improve their survivability and penetration capabilities. At the same time, this light-controlling material also has adaptive properties and can maintain the best invisibility effect under different lighting conditions.

As a result, Chen Feng completely realized the concept of physical invisibility of fighter jets, allowing supersonic stealth fighters to achieve dual invisibility of physical invisibility and radar invisibility.

After solving all the problems of the supersonic stealth fighter, Chen Feng and Li Nian began to officially produce the first epoch-making fighter with supersonic speed, physical stealth and radar stealth, dual stealth.

During production, they selected the most advanced aviation materials, including high-strength, lightweight titanium alloys and carbon fiber composite materials, to build the fighter's frame and fuselage.

These materials not only provide excellent mechanical properties, but also have good radar absorption properties, providing the basis for the radar stealth of fighter jets.

Next, Chen Feng and Li Nian applied the "photo-invisible" light-control material they developed to the surface of the fighter jet. This material allows precise control of light, making it physically invisible. They use advanced coating technology to evenly coat the light control material on the surface of the fighter jet, making it almost undetectable when illuminated by light.

During the manufacturing process of the fighter jet, Chen Feng and Li Nian also paid attention to the optimization of details. They designed a unique landing gear and wing folding system that allows the fighter to maintain an extremely low radar cross section during takeoff and landing.

At the same time, they also used advanced electronic warfare systems, including active jamming and passive decoys, to further reduce the fighter's radar detectability.

In terms of the avionics system of the fighter jet, Chen Feng and Li Nian used the most advanced photoelectric detection system and radar system to ensure that the fighter jet can conduct effective reconnaissance and strikes in a stealth state.

They have also developed advanced combat management systems, including artificial intelligence and autonomous decision-making capabilities, allowing fighter jets to autonomously choose the best course of action based on mission requirements.

Finally, Chen Feng and Li Nian conducted comprehensive testing and evaluation of the manufactured fighter jets. They conducted flight tests, radar detection tests and physical stealth tests to verify whether the fighter jets achieved predetermined performance indicators.

The test results show that this fighter has excellent supersonic flight performance, achieves physical invisibility and radar invisibility at the same time, and has epoch-making combat capabilities. (End of chapter)