India must quickly respond to this development. All available Russian and American technologies must be imported to counter this new threat, no matter how expensive.
Chinese Scientists Unveil New Stealth Material Breakthrough - Defense One
A group of scientists from China have created a stealth material that could make future fighter jets very difficult to detect by some of today’s most cutting-edge anti-stealth radar.
The researchers developed a new material that can defeat microwave radar at ultrahigh frequencies, or UHF. Such material is usually too thick to be applied to aircraft like fighter jets, but this new material is thin enough for military aircraft, ships, and other equipment.
Today’s synthetic aperture radar use arrays of antennas directing microwave energy to essentially see through clouds and fog and provide an approximate sense of the object’s size, the so-called radar cross section. With radar absorbent material not all of the signal bounces back to the receiver. A plane can look like a bird.
“Our proposed absorber is almost ten times thinner than conventional ones,” said Wenhua Xu, one of the team members from China’s Huazhong University of Science and Technology, in a statement.
In their paper, published today in the Journal of Applied Physics, the team describes a material composed of semi-conducting diodes (varactors) and capacitors that have been soldered onto a printed circuit board. That layer is sitting under a layer of copper resistors and capacitors just .04 mm thick, which they called an “active frequency selective surface material” or AFSS. The AFSS layer can effectively be stretched to provide a lot of absorption but is thin enough to go onto an aircraft. The next layer is a thin metal honeycomb and final is a metal slab.
The good news: the material isn’t locked away in a lab but published openly, so it’s not going to surprise anyone.
Stealth is considered by many to be one of the key technologies that enabled U.S. military dominance throughout the last century, effectively neutralizing, or offsetting, technological gains made by rival nations and the Soviet empire.
Chinese scientists develop tunable stealth material that can hide ships from radar - Yahoo Finance
Researchers from China have turned out a new type of stealth material that is far more advanced than anything out there today. Published in the J ournal of Applied Physics, the technology behind it is called “active frequency selecting surface” (AFSS), and it is described as an ultra-thin multi-layered material that is only 7.8mm thick.
The technical details of this material are impressive. The first 7mm of the composite is a honeycomb substrate that supports the outer layers and separates them from the metal outer surface of the craft to which it is applied. Next comes a copper-and-semiconductor AFSS layer that runs 0.04mm thick, and this leads to an outer layer called FR4. FR4 is a material used in printed circuit boards which is able to variably tune itself to absorb a wide band of radio frequencies.
Due to its utility and physical properties, it is possible to use the material on many different types of craft, including drones, fighter jets, satellites, and more. It appears that this technology will make its way over to Chinese jets and ships, making them harder to detect. This new material is designed to defeat microwave radar at the UHF band level. With its thin profile, this type of material is applicable to fighter jets, defeating a practical limitation found in previous materials.
Stealth technology, and radar evasion in aircraft technology, have been part of a longstanding cat-and-mouse game between the major military powers extending over many years. From the earliest days of high altitude craft, to the ultra-sophisticated materials that are placed on craft today, the goal is to be invisible to the tools of detection. Stealth aircraft materials are designed to break up and change the normal way in which radar waves bounce of a craft’s surfaces. In time, radar detection equipment has become increasingly fine-tuned in order to counteract these stealth techniques.
Today, detection technology uses ultra-high frequencies (UHF), which have enabled higher resolution than ever before. This development has certainly not been lost on the U.S. military, as this represents China’s next move in the ongoing stealth race. Its emergence from a research group that was founded on a government grant has caused some concern over the brazen development of technologies that can be applied to the military.
Chinese Scientists Unveil New Stealth Material Breakthrough - Defense One
A group of scientists from China have created a stealth material that could make future fighter jets very difficult to detect by some of today’s most cutting-edge anti-stealth radar.
The researchers developed a new material that can defeat microwave radar at ultrahigh frequencies, or UHF. Such material is usually too thick to be applied to aircraft like fighter jets, but this new material is thin enough for military aircraft, ships, and other equipment.
Today’s synthetic aperture radar use arrays of antennas directing microwave energy to essentially see through clouds and fog and provide an approximate sense of the object’s size, the so-called radar cross section. With radar absorbent material not all of the signal bounces back to the receiver. A plane can look like a bird.
“Our proposed absorber is almost ten times thinner than conventional ones,” said Wenhua Xu, one of the team members from China’s Huazhong University of Science and Technology, in a statement.
In their paper, published today in the Journal of Applied Physics, the team describes a material composed of semi-conducting diodes (varactors) and capacitors that have been soldered onto a printed circuit board. That layer is sitting under a layer of copper resistors and capacitors just .04 mm thick, which they called an “active frequency selective surface material” or AFSS. The AFSS layer can effectively be stretched to provide a lot of absorption but is thin enough to go onto an aircraft. The next layer is a thin metal honeycomb and final is a metal slab.
The good news: the material isn’t locked away in a lab but published openly, so it’s not going to surprise anyone.
Stealth is considered by many to be one of the key technologies that enabled U.S. military dominance throughout the last century, effectively neutralizing, or offsetting, technological gains made by rival nations and the Soviet empire.
Chinese scientists develop tunable stealth material that can hide ships from radar - Yahoo Finance
Researchers from China have turned out a new type of stealth material that is far more advanced than anything out there today. Published in the J ournal of Applied Physics, the technology behind it is called “active frequency selecting surface” (AFSS), and it is described as an ultra-thin multi-layered material that is only 7.8mm thick.
The technical details of this material are impressive. The first 7mm of the composite is a honeycomb substrate that supports the outer layers and separates them from the metal outer surface of the craft to which it is applied. Next comes a copper-and-semiconductor AFSS layer that runs 0.04mm thick, and this leads to an outer layer called FR4. FR4 is a material used in printed circuit boards which is able to variably tune itself to absorb a wide band of radio frequencies.
Due to its utility and physical properties, it is possible to use the material on many different types of craft, including drones, fighter jets, satellites, and more. It appears that this technology will make its way over to Chinese jets and ships, making them harder to detect. This new material is designed to defeat microwave radar at the UHF band level. With its thin profile, this type of material is applicable to fighter jets, defeating a practical limitation found in previous materials.
Stealth technology, and radar evasion in aircraft technology, have been part of a longstanding cat-and-mouse game between the major military powers extending over many years. From the earliest days of high altitude craft, to the ultra-sophisticated materials that are placed on craft today, the goal is to be invisible to the tools of detection. Stealth aircraft materials are designed to break up and change the normal way in which radar waves bounce of a craft’s surfaces. In time, radar detection equipment has become increasingly fine-tuned in order to counteract these stealth techniques.
Today, detection technology uses ultra-high frequencies (UHF), which have enabled higher resolution than ever before. This development has certainly not been lost on the U.S. military, as this represents China’s next move in the ongoing stealth race. Its emergence from a research group that was founded on a government grant has caused some concern over the brazen development of technologies that can be applied to the military.
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....... The same reason they unveiled DSI 
