The soundwaves can use in fundamental 3D printing technology.

Soundwaves are carrying material. And that thing is not a very big surprise because sound waves are the movement of molecules. The thing is that there are also sound waves in the space. Objects like stars are sending material or gas impulses. And that means that molecular movement can observe by using radars. 

And turn to the sound waves. The gas or other particles can inject into the outer layer of the space structures. But the soundwaves can use in fundamental 3D printing technologies. 

But the fact is that the coherent sound waves can use in the new fundamental  3D printing tools. In that case, the plastic dust or small plastic particles can carry to a certain position by using coherent sound waves. That thing allows using the modified LRAD-systems for sending particles in long distances. 

In that kind of 3D printing system, the particles are riding with soundwave or soundwave-laser ray combination. And that thing means that kind of system can be the next-generation 3D printing tool. The vaporized plastic, carbon fiber, or steamed metal. The system can use to create more complex and sensitive structures than ever before. 

The soundwave-basing 3D printing system has one benefit. It must not make physical contact with the layer or object that prints. The soundwave can push and pull objects by creating changes in the pressure above the object. 

That system doesn't require a vacuum to operate. So it can use in biological printing processes. The system can use to create nanotechnological microchips. And a new type of proteins. One thing that is important in protein structures is the form of protein. 

The soundwave-based systems don't require contact with the chip's surface. That thing denies the deletion of programming of that chip. 

Also, this kind of system where particles are traveling in the sound-wave tunnels can use to make the complicated protein base structures. Also, artificial DNA can create by using soundwaves. The difference between the soundwave and laser systems is that the soundwave can work underwater conditions. That allows operating single cells that are living. 

https://curiosmos.com/scientists-have-just-found-sound-waves-can-carry-mass/

https://likeinterstellartravelingandfuturism.blogspot.com/

The new quantum gravitation sensor makes it possible to map things that hiding underground.

Image 1) "A perspective of future gravity cartography being used with 0.5 m spatial resolution over a region, at an uncertainty level of 20 E. Expected signal sizes for a range of applications are shown. Credit: Stray et al. 2022 Nature DOI: 10.1038/s41586-021-04315-3" 

(ScitechDaily/Quantum Gravity Sensor Breakthrough Paves Way for Groundbreaking Map of World Under Earth’s Surface)

When researchers are proven that the gravitation waves exist they can make systems that benefit that kind of phenomenon. We can think that gravitation is like light or any other wave movement. The source of the gravitational waves is in the material. That means if there are thicker points in the ground that allows benefiting gravitational waves. For making maps of underground structures. 

The idea is that the thick points are sends more powerful gravitational waves than thin points. So the differences between the thickness of the ground are the thing that allows making maps of underground structures. The fact is that the knowledge of the gravitational waves and microgravitational interaction is making it possible to create new and accurate sensors. That is basing the gravitational interaction. 

When we say that gravitation is the weak force we forget that gravitation is the interaction. It's the most dominating interaction that we can see without powerful systems. So we can say that all gravitational interaction is some kind of gravitational wave movement. 

When the high accurate gravitational measurement sensor will travel over the ground. The system detects the position of those particles. And when the sensor goes over the thicker point of the Earth that causes stronger gravitational interaction. 

Image 2) The crystal structure and emergent fractional corner charges of table salt. Credit: HKUST (ScitechDaily/Unusual Topology of Sodium Chloride – Table Salt – Revealed by Researchers)

One of the most promising sensor elements can be salt. The cube-form chrystals can observe by using laser systems. When the sensor travels over the ground the changes in a gravitational field move the position of the molecules. That thing makes it possible to observe the changes in the gravitational field. 

The microgravitational effect can use to detect underground structures. In archaeology, researchers can find buried cities and other structures. By using gravitational sensors. 

And the military can use that ability to detect underground command bunkers.  But it can also detect things like submarines under the sea. The submarine that hovers over the ocean floor causes changes in the gravitational field. And that thing makes the detector able to sense the existence of the submarine. 

Images and other sources: 

https://scitechdaily.com/quantum-gravity-sensor-breakthrough-paves-way-for-groundbreaking-map-of-world-under-earth-surface/

https://scitechdaily.com/unusual-topology-of-sodium-chloride-table-salt-revealed-by-researchers/

The next-generation stealth could be here.

 

Image: 1) Wikipedia/Northrop Grumman B-2 Spirit

The B-2 Spirit was a fundamental design. Its plans are made by using computers. The limits of that time computers were very big when that aircraft first flew in 1987.  So we can think about what kind of structures modern quantum computers can make with those systems. 

The successor of the B-2 the B-21 "Raider" is coming into service. There is made only two B-21 Raiders. The B-2 was made in the time of regular computers. 

The B-21 Raider is made in the time of quantum computers. And artificial intelligence. That allows designing every single point of the core of the aircraft by using extreme accuracy. And the AI makes it possible to keep its entirety in its hands and simulate the wave movement that hits the aircraft. 

But those bombers might enter service sooner than nobody expects. There are always questions about what kind of systems the modern stealth aircraft uses? 

Nanotechnology with intelligent artificial intelligence makes it possible to create solutions. That has zero reflection. And graphene is one of the most promising materials for stealth systems. The graphene that can reflect backward can deny the reflection of the light. And the abnormal ability to absorb light in graphene can also make the new ultimate stealth systems possible. 

Image 2: Three-layer graphene

Things like quantum stealth and zero-point stealth are the most promising stealth systems. 

If the aircraft uses the zero-point stealth system the core of the aircraft captures the energy and then that energy can conduct to the PPT (Pulsed Plasma Thrusters)-systems. That means. When the aircraft is under the radar surveillance it can use that energy in its engines. 

The zero-point system means that there is the minimum energy level material in the aircraft's structure. That means electromagnetic radiation can travel only in one direction. That material can be the Einstein-Bose condensate. 

Modern artificial intelligence can make counter-wave systems that can fall incoming wave movement. That means when the reflection has the same wavelength and force as incoming radiation that thing eliminates the wave movement. But that artificial intelligence can make it possible to create the active waving material. 

Shaped memory in hierarchical networks are allowing to make new materials. And that thing makes the new type of things like stealth technology possible. The new graphene-based materials can be waved when they are facing electromagnetic radiation. 

That means the structure of those materials is not solid. The active waving material can be the new answer for stealth technology. Artificial intelligence can control the system that makes the graphene-based structures create waving movement that would suppress the reflection to a minimum. 

In some cases, there has introduced a possibility that if the system uses opposite-rotating graphene layers those layers can capture the photons and electrons between them. But for making that thing in real life requires that the movement of the graphene layers would be extremely high speed. 

There is also possible to connect the graphene structures with photon crystals. The speed of light will decrease to zero in those crystals. And that thing means that there is no reflection. But as you know there are many other ways to make craft invisible for radar, infrared and human eye.

https://phys.org/news/2022-02-abnormally-strong-absorption-graphene.html

https://phys.org/news/2022-02-memory-hierarchical-networks-morphing-materials.html

https://www.sci-nature.vip/2022/02/speed-of-light-could-be-dropped-to-zero.html?m=1

https://scitechdaily.com/nano-architected-material-refracts-light-backward-an-important-step-toward-photonic-circuits/

https://en.wikipedia.org/wiki/Northrop_Grumman_B-2_Spirit

https://en.wikipedia.org/wiki/Northrop_Grumman_B-21_Raider

Image 1:)https://en.wikipedia.org/wiki/Northrop_Grumman_B-2_Spirit

Image 2:) https://phys.org/news/2022-02-memory-hierarchical-networks-morphing-materials.html 

https://likeinterstellartravelingandfuturism.blogspot.com/

The new engine will give a boost to hypersonic space flight.

China has made very big work with MHD (MagnetoHydrodynamic Drive). Those ion thrusters are ionizing air at the forward of the engine and then the magnetic system will pull it backward. Other names for the MHD are MDD(MagnetoDynamic Drive) or plasma ion thruster. 

The plasma jet engine called PPT (Pulsed Plasma Thruster) is the system that can drive aircraft higher and faster than anytime before. The nuclear reactor or gas turbine inside the core of the hypersonic aircraft can create electricity for that system.  Pulsed plasma thrusters can give things like jet fighters new abilities. 

That kind of system is developed also by Russians and NASA. And its purpose is to accelerate the aircraft to hypersonic speed. In that kind of system, the carrier plane would take the space shuttle near the orbiter where the orbiter shuttle will release to operate at orbiter. 

The original shuttle constructions by NASA the plans were to take the space shuttle near the edge of the atmosphere by using large-size carrier aircraft. Then the rocket engines of the shuttle would start. And it can operate at the orbiter. 

There were at least plans for making the EMU (Enhanced Mission Unit). That is the internal extra-fuel tanks for the space shuttle. I don't know did a real space shuttle ever use that system. But the shuttle program's first test flights by using the space shuttle launched from the back of the Boeing 747 caused speculations that this version of launch could use in some shuttle flights. 

There is the possibility that the large shuttle will take to the edge of the atmosphere. Then the rocket engines will start. And then that full-scale system will release the miniature shuttle. The miniature shuttle can also be launched by using some other vehicle. And it can take satellites to the cargo bay of the larger shuttle. 

https://www.scmp.com/news/china/science/article/3168220/can-chinas-experimental-engine-supercharge-hypersonic-space-race

https://en.wikipedia.org/wiki/Ion_thruster

https://en.wikipedia.org/wiki/Plasma_propulsion_engine

https://en.wikipedia.org/wiki/Pulsed_plasma_thruster

Image 1) https://www.scmp.com/news/china/science/article/3168220/can-chinas-experimental-engine-supercharge-hypersonic-space-race

When the AI is connected with the CCD camera, it can give new results about the observations.

The new AI-based technology can search for the bottlenecks of traffic and other things like that. The system can also search the things like too-long vehicles from the images. If some roads are too narrow for some type of vehicle the AI can tell that thing to operators. 

And then they can guide those vehicles to another route. The AI can compare massive datasets that are collected from multiple sensors. And then it can make decisions that can make things work better. 

The thing where the AI is the best. Is comparing the data of large data masses. The AI can see if there are some anomalies in the image. The AI can compare the images stored in hard disks. And then it can find the differences in those images. The system detects the smallest possible changes in brightness by comparing the images pixel by pixel. In that system, the image is taken at the same angle and same spot. 

That allows operators to see. If the object moving or if there are some other changes. This system can use in recon missions or astronomy. The idea is that. The camera is taking images that are stored on the hard disk. And then the system compares the images that are stored in the mass memories. That thing makes those systems more effective. Because the system has more time to make its duty. 

When we connect that system with fuzzy logic we can make a system that can compare objects very effectively. At first, the system can use fuzzy logic. This means as an example 80% of pixels have a match with a certain object. And the system tells that object is a van. 

Then the system can send that data to an operator. But it can also store the image on a hard disk. And then the system starts to search the images from its archives. To find out the mark and model of the van. This means the system can give interim information to the operator. 

The operator will get information that the thing that bypasses the camera is the van. And then after that, the system can search the mark and model of that vehicle from the database. This is the thing where computers are the best. 

https://scitechdaily.com/using-artificial-intelligence-to-find-anomalies-hiding-in-massive-datasets-in-real-time/

Image: https://scitechdaily.com/using-artificial-intelligence-to-find-anomalies-hiding-in-massive-datasets-in-real-time/

The new materials are pathfinders in photonic circuits and stealth technology.

The new graphene-based material reflects light backward. And it is a big step for the next-generation photonic circuits. But the new nano-materials are also possible to use in the next-generation stealth technology. There is introduced an idea to conduct the radar impulses to the accumulator. That means that the radiation's reflection is denied by conducting that radiation to energy storage. 

The thing is that if the energy and wave movement travels only to the object without reflection. There is no way to see that object. But the problem is that the system must sometimes remove the extra energy by conducting it to the ground. 

And there are suspicions. That some UFO:s that are hovering above the water is removing their energy storage. In that case, those aviation systems use technology that absorbs all radiation in the craft. So when the energy level rises too high the craft must remove extra energy to somewhere. 

Graphene-based materials have an abnormally strong absorption ability. The problem is that if the object would not reflect. It will turn very hot if it cannot remove that heat somewhere. The new graphene based-material allows conducting the light to the point where the researchers want. And that ability is useful in photon circuits. But it can also turn the aircraft or ship into shadow. The light can conduct to a laser that sends it in the wanted direction. 

Image 2)

And the problem with this type of material is that they must remove their energy somewhere. The overload of energy causes the problem. The answer to that problem could be to load the extra energy to capacitors or the energy can conduct to air by using saltwater where the extra energy is loaded. 

And that thing can make it possible to make the objects that are not giving a reflection at all. There is the possibility that the graphene-based materials are conducting light and all other electromagnetic wave movements to the middle of the object like aircraft. And then that light and wave movement can conduct in the wanted direction by using laser technology. 

One version of how to deny reflection is simple. The system must just make the object that has as low an energy level as possible. That thing makes it possible that the energy travels only to the object. And that makes the object invisible for radar, infrared, and even for the human eye.

https://phys.org/news/2022-02-abnormally-strong-absorption-graphene.html

https://scitechdaily.com/nano-architected-material-refracts-light-backward-an-important-step-toward-photonic-circuits/

Image 2) https://scitechdaily.com/nano-architected-material-refracts-light-backward-an-important-step-toward-photonic-circuits/

Quantum computers are taking the place of the number one simulator in the world.

 

Image 1) 

The image above this text portrays an advanced quantum computing system. Some of the quantum computers of tomorrow can use simply multi-channel radios. For their internal communication. In that system certain channel is a certain state of the qubit. And also the strength of the radio signal can determine the state of the qubit. That means a certain energy level is a certain state or level of the qubit.  

The thing that quantum computers are more effective tools to simulate and test quantum mechanics than binary computers is no surprise. The power of quantum computers is so superior that they can make the same calculations that take months by using binary computers in seconds. Quantum computers are the ultimate tools for creating new types of materials and enzymes, and they can map the DNA. 

And quantum computers can also use to control plasma at the fusion reactors. The thing is that quantum computers can also control nanomachines. The AI that is used to move nanomachines can run on the quantum server. That allows operating billions of nanomachines at the same time. Quantum computers can also control the data on the internet. And they can search and detect malicious code. 

The new solutions in nanotechnology require complicated AI software. And the power of quantum computers makes it possible to drive hard and complicated code and connect the data that is collected from sensors. 

The bright future of quantum computer-based AI means that when the number of the quantum computer increases their prices will get lower. The error detection in quantum computers is a similar process to binary computers. The system uses two or more data handling lines. And if those lines get the same result there are no errors. 

Image 2) Bacteriophage

Quantum computers operate with nanomachines by using similar WLAN systems with regular computers. The communication with WLAN systems will happen through binary computers that transform qubits to radio impulses. The thing is that by using the multi-channel radios. Is possible to send data in the form of qubits. In that case, every channel is a certain state of the qubit. And that makes the WLAN more effective. 

The nanomachine can be the genetically engineered bacteria that are controlled with microchips. The system can use bioelectricity or nano-size batteries for creating energy for those microchips.  The nano battery can be a virus where is small gold bites in the feet. When that gold hits with lead or some other base metal that gives electricity. That means the nanobatteries can create electricity also from hemoglobin. 

Image 3) Microchip on graphene.

The small-size or nanotechnical microchips require a new type of power source. The problem with nano-size microchips is that they need an extremely well-calculated energy level. If the electricity level is too high. That means the electric flow will jump over the switches. 

The newest microchips can create energy from graphene. That system captures the energy of the thermal movement of graphene. And that thing allows using that system also in the dark places. The IR radiation is one way to make the energy for that system. But there is the possibility to connect that graphene with miniature resistors. 

Or it can connect with living cells. When those cells will get nutrients their temperature will rise. And the thermal movement of graphene can cause by all possible thermal sources. That thing can use to control the nanomachines. If some medical nanomachine operates inside the human body it requires the WLAN system to communicate with computers.

https://scitechdaily.com/quantinuum-h1-quantum-computer-beats-classical-system-at-game-designed-to-test-quantum-mechanics/

https://www.thebrighterside.news/post/physicists-build-circuit-that-generates-clean-limitless-power-from-graphene

Image 1)https://scitechdaily.com/quantinuum-h1-quantum-computer-beats-classical-system-at-game-designed-to-test-quantum-mechanics/

Image 2)https://en.wikipedia.org/wiki/Bacteriophage

Image 3) https://www.thebrighterside.news/post/physicists-build-circuit-that-generates-clean-limitless-power-from-graphene

https://thoughtsaboutsuperpositions.blogspot.com/