Sunday, July 5, 2026

The new boost for quantum technology. It will also affect binary computers.



“Proof of quantum effects in a strange metal. Credit: Harald Ritsch / TU Wien. TU Wien has detected strong quantum entanglement for the first time in a centimeter-sized crystal of a strange metal.” (ScitechDaily, Scientists Discover Quantum Entanglement in a Crystal You Can Hold)

“Many quantum effects are easiest to detect in very small systems, such as individual atoms, molecules or photons, that are carefully isolated from their surroundings. But physicists have long wondered whether much larger objects, made of enormous numbers of particles, can also reveal unmistakable signs of quantum behavior.” (ScitechDaily, Scientists Discover Quantum Entanglement in a Crystal You Can Hold)

New observations about quantum entanglement in a centimeter-class special crystal. It is. New boost for quantum technology. The main problem with quantum crystals. That is, which is a better position for quantum entanglement. Should the system make the superposition between atoms? Or should it rather make superpositions between crossing points of those atoms’ quantum fields? 3D quantum crystals. They can form new types of quantum computers.  

It also gives a new boost for classic, binary computers. The ability to create quantum entanglement in a centimeter-sized metal crystal. That is one of the things. That could boost quantum computers. Quantum computers are effective. But they are more effective than binary computers only in certain types of operations. Quantum computers handle data as qubits. 

The qubit has multiple states. The system. It can share data among states. Of the qubits. So, data travels in quantum computers in lines. Or data  travels in a quantum computer in a wider lane than in binary computers. But another thing. It is even more interesting. Each state of a quantum computer. It can act as an independent binary computer. So, if we have a qubit that has 1000 states.

Theoretically. That qubit can replace 1000 binary computers. This is theoretically possible. It's a non-practical way to use quantum computers. The system. It must drive data through the main qubit. And that makes the ability. To use the different quantum states of the qubits as different binary computers. Each state of the qubit. It is in one main state. And that means all data that is driven into the qubit. Must be driven through the main state. 

If. We want to make a system. That mimics human brains. We should create more gates through the qubit's main state. The gate is the tunnel. That transports information. Straight to each state. But that is very difficult. Theoretically, that is possible if we have the internal 2D quantum fields. If those fields. They are on a 2D lattice, and each of those quantum fields. They are in superposition with a similar field structure. The big problem. It is how that information? Can travel through the 2D quantum lattice?. Theoretically. Is possible. To benefit. The quantum tunneling. 

But that means that we need more accurate systems. To drive information separately to each qubit state. Today, quantum computers drive information to the entire qubit. Things like Rydberg atoms make it possible to create. Atom-size qubits. Or quantum processors. 



“YRu3B2 and LuRu3B2 gain their superconductivity from electrons forming flat bands in a kagome lattice, named after a hexagonal Japanese basket-weaving pattern. Credit: Esa Kapila” (ScitechDaily, The Search for Room Temperature Superconductors Just Got a Huge AI Boost). 

The new superconductors can also help keep temperatures low in regular computers. The superconductors and nanonet. It can also trap electrons in its structure. And then those electrons. They can form quantum entanglement. The AI can help to keep conditions stable. The AI can give control systems more accuracy. 

Another thing that can boost quantum computing. Along with AI. They are new superconductors. Superconducting systems. They can also make it possible. To create more effective binary computers. The biggest problem in binary computers. It is the heat. Heat. That forms because of resistance. Resistance causes heat in the wires. The reason for that is the standing waves between atoms in the wire. A superconductor means a situation. That something removes those standing waves. The problem with regular wire is that. The standing waves that form. 

Because of the reflection in the atom’s quantum field. It gets stronger all the time. This causes a chain reaction. There, the electricity. Requires more and more force. To travel through that standing wave. This temperature causes oscillation. And that oscillation disturbs data transportation. The room-temperature superconductors and photonic computers. They can be a solution for the heat problem. The room-temperature superconductor doesn’t mean a superconductor. That works. At 20 Celsius. Temperature. That means. A superconductor. It maintains its superconductivity at temperatures higher than -100 Celsius. One of the solutions. That can make those superconductors more effective. It is high-pressure systems. Those systems decrease resonance. And nanotechnological Faraday cages that protect wires. Another answer. It could be altermagnets. 



“Atomic Structure Altermagnets. An illustration of the atomic structure of altermagnets. Neighboring atoms are rotated. And their magnetic spins are flipped. Credit: Libor Šmejkal & Anna Birk Hellenes.” (ScitechDaily, This Strange New Magnet Could Transform Future Electronics)

“Researchers have designed a diamond-based quantum sensor that could help detect altermagnets, a newly discovered type of magnetic material with unusual properties.” (ScitechDaily, This Strange New Magnet Could Transform Future Electronics)

“For almost 100 years, scientists recognized only two fundamental types of magnets. Now, a much newer class called altermagnets is emerging as one of the most exciting discoveries in physics, with the potential to make future electronics faster and far more energy-efficient.”(ScitechDaily, This Strange New Magnet Could Transform Future Electronics)

“Researchers at the University at Buffalo have now proposed a new quantum sensing technique that could make these elusive materials much easier to identify. Their theoretical approach uses tiny defects inside diamonds to detect the distinctive magnetic behavior that sets altermagnets apart.”(ScitechDaily, This Strange New Magnet Could Transform Future Electronics)

They can remove outside electromagnetic fields. And oscillations at the wire. The oscillation is the thing. That disturbs data transmission. The thing is called altermagnetism. It can revolutionize computing. Altermagnetism is a magnetic effect. That is visible in the metal wires. But there is no magnetism on the shell of that object. Altermagnetism denies the formation of an electromagnetic field around the wire. Those fields are things that cause oscillation. 

When we talk about quantum technology. We must understand that quantum computers are only a small part of quantum technology. Superconductors and many other things could revolutionize electric transportation. The main problem with those things is simple. Keeping electric wires at a low enough temperature. Requires so much power that those systems turn impractical. Quantum systems are tools that come from practical use. They can be used for secure data transmission. Those systems. They can focus very high energy levels in a small point.  

The quantum crystal. It can form a quantum superposition network. That focuses energy into one position. This kind of system can look like an expanding triangle form. At the bottom of that structure will be transmitted radiation. The structure transports energy. 

Focuses it into one point. Quantum system. A stylus. It can adjust electrons’ energy levels. That can make it possible. To create Rydberg atoms. Those atoms can someday be the most effective way. To make the most effective quantum computing systems. The silicon qubits. 2-dimensional lattices. Their information travels between quantum dots. Those dots are electrons that are on those silicon layers. The problem is how to control that system. The system. It requires a very low temperature  to operate. 


https://scitechdaily.com/scientists-discover-quantum-entanglement-in-a-crystal-you-can-hold/


https://scitechdaily.com/the-search-for-room-temperature-superconductors-just-got-a-huge-ai-boost/


https://scitechdaily.com/this-strange-new-magnet-could-transform-future-electronics/

The company wants to send a 100,000-satellite data constellation.



Orbital data centers are a thing. That causes discussions. But the orbital data centers. They are a response to problems with data centers’ power supply. If we think about the economic aspect. There is a point about the price of electricity. Their position in orbit trajectory. It turns out to be cheaper. Than the position on Earth. Data centers can cause energy crises. The answer to that problem. It can be their own power plant, like a small nuclear reactor. In some other solutions. The data center. That uses cloud-based architecture. It can equip all computers with the RTG (Radioisotope Thermoelectric Generator). 

Sending data satellites to orbit is not more difficult. Than sending communication satellites to the same trajectories. There are discussions about things like repair. Of those malfunctioning satellites. The satellite. It can be equipped with a heat shield and parachutes. Same way as in cases like the malfunction of the communication satellites. Those microcircuits will not change. The satellite. It will be returned to Earth by using parachutes or in the space shuttle cargo bay. 

That thing removes space junk. And that will be an answer for data security issues. Normally, satellites are driven into the atmosphere. There they land near Point Nemo. The problem is that. Deep-sea rescue units can pick up those satellites. And then find maybe some kind of critical information. That information contains the oscillation circuits from the satellite microchips. The ability to make a soft landing for those satellites allows researchers to investigate things. Like micrometeor damage. That also covers the hard drives and communication systems of those satellites. If those things go into the wrong hands. That can make it possible to create systems that can jam those satellites. 

If all computers have independent nuclear batteries. They will become energy independent. There is also the possibility of using renewable energy. Like solar power or geothermal generators. The geothermal generator is a ground-source heat pump well. There, the tubes are filled with gas or liquid that expands so strongly that it can rotate the turbine wheel. That rotates the generator. In the high orbiter, the data satellite. It can use solar panels to create electricity. 

Those systems allow control of other satellites. By using AI. This kind of data center at a high orbit could be immune to the plasma jammers. The plasma jammer is the system that delivers plasma between satellites and their ground stations. This kind of system allows the satellites to continue their operations. Even if the connection between them and the ground station is cut. Satellite data centers can also assist the moonbases. 

The satellite-based supercomputer is easier to make. than establishing a data center on the Moon. The data center could also be the landing crafts. That carry supercomputers. But there is a possibility. To send those data satellites on a trajectory that orbits Earth and the Moon. The relay satellite keeps contact with the satellite swarm. It can be at the point between Earth and the Moon; there. Their gravitation. Anchors that satellite into a stable position. The communication system. It must only know the position of that relay satellite. That keeps contact with the orbital data center. 

The moonbases. They can act as a laboratory. There, samples from other planets will be taken. If we think about the possibility of establishing bases on other planets, we must be sure. That there are no other lifeforms. 

The lifeform can travel between planets. And there, in an isolated environment, the microbe. It can be degenerate. There is a theory that Earth itself can deliver microbes to Venus, and probably. Also to Mars. The bacteria cannot live on the surface of Venus. But it can hover in Venus’ clouds. 

Another thing is that. Those systems. They can also make it possible. To test the cloud-based data architecture. The next-generation space probes that travel to outer solar systems and beyond could be swarms of smaller probes. That guarantees. The success of the mission. Even if one of those probes is damaged or destroyed. There is a possibility. That AI-controlled drone swarms can research Venus and Jupiter. 

The small-sized RTG (Radioisotope thermoelectric generator. Called nuclear batteries, allow small quadcopters to operate virtually unlimited time. These kinds of systems can research planets like Venus and Jupiter. But they can also operate in the deep seas. And they can act in challenging intelligence operations. 

The orbital data centers are the next question. If we want to build bases on Mars and beyond. It requires highly advanced automation. The base will be built using robots. And the algorithms that those robots require. They need lots of computer power. In the same way, if we want to send colonists there. Those people might get sick or be injured. And even the best doctors don’t know everything. The AI can support those people at work. But before anything is sent to Mars. That technology must be tested. If we want to send probes to the outer solar system. 

Their control signal travels from Jupiter to Earth in about 8 minutes. And 25 seconds. That is a very long time to control things like rovers on the surface of its moons. The probes themselves can travel to Jupiter and Saturn and use quite traditional control codes. But when some probe operates on Titan or some of Jupiter’s moons. Something surprising can happen. The sudden earthquakes on those icy moons. They can be far stronger than on Earth. There, the low gravity doesn’t  hold back those things. 

And there, rovers must react very fast. So, before anything goes interstellar, we must conquer the entire solar system. Before we send colonists and establish any bases. We must be sure. That the places those bases will be established are safe. The Mars base is not like the ISS. There is no straight way to return. If. There is something that happens. The journey to Earth takes a long time. And if the astronaut is injured. Or has some kind of infection. Even. 30-60 days in a closed spacecraft. Using some futuristic plasma engines feels eternal. 


https://interestingengineering.com/space/us-firm-files-fcc-application-for-100000-satellite-data-center-constellation


Thursday, July 2, 2026

Why does the AI change answers all the time?



“ChatGPT may sound confident, but when tested on complex scientific claims, it often guesses and even contradicts itself. Researchers found it struggles especially with spotting false information. Credit: Shutterstock”(ScitechDaily, ChatGPT Was Asked the Same Question 10 Times. The Answers Kept Changing)

“In the initial 2024 experiment, ChatGPT answered correctly 76.5% of the time. When the study was repeated in 2025, accuracy rose slightly to 80%. However, once the results were adjusted for random guessing, the performance looked far less reliable. The AI was only about 60% better than chance, which the researchers described as closer to a low D than strong performance.”(ScitechDaily, ChatGPT Was Asked the Same Question 10 Times. The Answers Kept Changing)

“The system had particular difficulty identifying false statements, correctly labeling them only 16.4% of the time. It also showed inconsistency. When given the exact same prompt 10 times, ChatGPT produced consistent results for only about 73% of the cases.”(ScitechDaily, ChatGPT Was Asked the Same Question 10 Times. The Answers Kept Changing)

Researchers talk about those cases like this. “We used 10 prompts with the same exact question. Everything was identical. It would answer true. Next, it says it’s false. It’s true, it’s false, false, true. There were several cases where there were five true, five false.” (ScitechDaily, ChatGPT Was Asked the Same Question 10 Times. The Answers Kept Changing)

The reason for that is the accumulation of information. When the researchers ask exactly the same questions hundreds or thousands of times. That causes data accumulation. Another thing is that. There is probably a pointer in the algorithm. That tells whether the answer satisfies the user. If the user does not stop the algorithm. While bombarding it with the same question. 

The algorithm interprets. That situation. That there is something wrong in the answer. If the user drives the same algorithm.  Again and again.  There is a possibility. That some router. Or a switch is stuck. This can cause a situation. That the system gives different answers. When the AI gives an answer that remains. It's RAM memory. If the algorithm runs in a loop, the question repeats. 

Time after time. That can also fill the memory of the central servers. So, before the next run. The user must remove the garbage or the data from the RAM. The system must have time to stop the algorithm and then clean its memory. If that is not done. The memory. It can be filled. And data. It can be polluted. 


The user should finish the job first. That happens by telling the AI that it’s time to begin the new operation. 


We all know that 1+1=2.But sometimes a stuck switch, or gate. Causes. That microchip fails in the simplest possible calculation.  And tells researchers that 1+1=3. The failure in a processor’s internal structure. It can make it break mathematical rules. 

The situation is similar. To cases. There are binary microchips that calculate 1+1=3. This happens sometimes. When the binary processors are tested by calculating 1+1 thousands or billions of times. Suddenly. A microchip. It can give an answer that can surprise us. The reason why the computer gives 1+1=3 is in Boolean algebra and switches. When the system runs 1+1 many times. That simple calculation jams the switch. And that causes the wrong answer. 

The biggest problem with AI is that. The same AI should handle all types of things. There is no human on Earth. Who knows everything. The limit. Of the sector. Of AI use. It can make it more trustworthy. If the same AI is used for fun and for things like scientific work. That causes the data that it involves. Scientific data and other types of data. Like poems. The biggest problem is that. The AI will not make. A difference between the sources. The AI handles all homepages the same way. The thing that makes AI more trustworthy is that. Its data source. It can use. They are limited to trusted scientific homepages. In cases like entertainment purposes. The AI must not use data in a similar way. 

Did you ask something? From the AI? Then you might notice that the answer changes all the time. The reason for that is in the AI, or LLM (Large Language Model). And especially in its structure. The AI is a cloud-based solution. The giant entirety. People who use AI might think that they are using their private software. The LLM or AI is a giant network of databases and servers. When somebody uses those systems. The system scales that interaction all over the network. So, every user in that kind of AI is participating.

 In the AI-training mission. Even if other users cannot see directly what other people ask. That data grows and refines the dataset. That. The system involves. When we ask something.  From the AI. It searches data. From its own registers. The AI searches. Is there the same question? And then the list of data sources that the LLM used. Questions. That people make. They might be from the same topics. But. They are a little. A bit differently written. 


What is the heaviest stable element? It is not the same question. As the question: “What is the heaviest non-radioactive element”?


The AI uses statistical methods to generate answers. This means that the homepages that the AI uses must be involved. A certain number of references that match the question. The AI must know the trusted data sources it can use. If the AI is used for scientific work. Things like thesis banks, universities, and national institutions offer very qualified information.  But then. We must be careful. When we use the AI. When we ask things like the heaviest known stable element. The AI might give an answer. That is wrong. It might tell.

That Oganesson is the heaviest stable element. Oganesson, element 118, is a very unstable element that decays in less than a microsecond. This means AI makes a mistake. And the reason for the mistake is in the way of thinking. The AI can “think” that the person who asks that question. Means the heaviest element that exists is confirmed. And the element is connected to the periodic table of elements. Normally, that question means the heaviest non-radioactive element. But as I just wrote. AI understands. This is the heaviest element. That has its place in the periodic table of elements. So, we should ask: what is the name of the heaviest non-radioactive element? 

This means that the AI translates and treats them as different questions. The system searches data from its internal registers. But if the questions about the topics are a little bit different. The AI also searches data from the network. This means the AI accumulates information about the source lists in its memory. And when data is accumulated. The AI will use different data sources. The other thing is that. When the LLM makes a search and opens homepages. It changes the homepage's page rank. And that also causes a situation. 

There, the AI’s answers are changing. The other thing is that the AI’s answers will be turned into the homepages. And that makes the AI recycle its output. This is the big problem for the net. The dead internet means that AI generates more and more material for it. That generates and accumulates. A data mass. The same data repeats again and again. This way of generating answers fills the servers. Another problem is that. For generating good answers. Those AIs require well-articulated questions. But another fact is that. A good-looking answer is probably not the best or right answer. 

The problem is that. The wrong answers might look funny. People share them on social media. This causes a situation. Those incorrect answers affect the page ranking. They are visible in discussion forums. If those incorrect answers are often shared. They are seen in the statistics. And that can make the AI repeat them. The problem is that. 

The AI searches data using statistical methods. Page ranking and the involvement of certain words in the list of words that are used in those pages. Make the AI select them. As the data source. Statistical methods. Don’t make a difference between right and wrong information. Or wrong information. The ability to limit. The use of data sources from trusted organizations. Makes AI more trusted.

The big problem is that. The AI causes. Those markings that people normally make become unclear. This breaks. The AI use. In medical work. If people do not make queries or make their markings as they should. That can break the AI. The AI’s purpose. It is to save the medical staff time. In the same way. It's made to make work easier. But the problem is that. Employers see the AI as a chance to fire workers. And if we think that way. The AI benefits only the owners of the companies. 


https://scitechdaily.com/chatgpt-was-asked-the-same-question-10-times-the-answers-kept-changing/

High-altitude platforms. They are new dimensions in scientific and military operations.




Artist's rendering of a NASA crewed floating outpost on Venus. But similar systems. They could also operate in Earth's atmosphere. They can act as atmospheric satellites. And those systems. They could also carry rockets, drones, or drone swarms. To high altitudes. The active denial systems. Like laser weapons. They can protect those airships against missiles. The ballistic missile can transport those systems into the operational area. 

The automated airships. They can act as high-flying computer centers that communicate with drones and ground robots. They can carry telescopes to high altitude. And those platforms. They can also observe certain areas. Like border zones. They can search for heat leaks. From large areas. Those systems can have high-power radars. That can search caves and other things. And the system. It can use the same radars and IR cameras to search for missing persons and hostile vehicles. They can search caves and submarines. And underground installations by using the same systems. 

The Pegasus-type rockets are suitable for ASAT missions. And they can also be used to transport small satellites into orbit. Those small satellites can be used as systems. That can fix other satellites' trajectories. Those small satellites. They can also act as repair robots. If they have manipulator arms. This means they can perform similar missions. As astronauts. The miniature satellites can also make surprise overflights. And they can also be used for counter-recon missions. They can observe other satellites. And those systems. They can be installed. Under high-flying drones. 



Or they can be flown under high-flying airships. The model for high-flying airships is taken from the High Altitude Venus Operational Concept. (HAVOC) study mission. 

The difference between the HAVOC and those new platforms is this. Those new platforms are fully automated. In some visions. The high-flying electric-engined drone. That uses solar panels and stealth technology.  Can fly over the battlefield. It can point targets by using lasers. Those systems. They can also drop drone swarms and individual drones to operational areas. Those drones. They can also point targets to larger drones. 

The airship is also a new solution. That can make these types of systems a reality. Once the airships are abandoned. The reason for that was. They were easy targets for aircraft. New airships are not very big. The rugby-ball-size airship. It can carry a quadcopter under it. The quadcopter. It can act as a gondola. When the system enters the right area. It can release that quadcopter from an altitude above 20 km. The quadcopter is hard to detect. 





“The unusual flight profile is intended to make the missile largely immune to Russian electronic jamming. (Representational image)”. (IE) The airship- or solar-powered high-flying drones. It can also carry these types of systems. 


The high-altitude airships and balloons. They can be used as platforms for high-altitude radars and observation systems. Those radar systems are already installed in the blimps. But they can also operate over the friendly bases. The multi-mission. Systems with advanced AI. Optical cameras, lidar, and radar scanners can make those systems very effective. The new tools. Like active denial systems. Those systems can be lasers. That destroy incoming missiles. But in some models. Those platforms. They can carry high-power lasers or microwave systems. That can destroy or cause heavy damage. To aircraft. The laser ray can cause damage. To a stealth fighter's body. 

The high-altitude airships can also be equipped with sails. Those sails are like fins. They allow the airship to sail in the high-altitude winds. And when the airship requires its engines. It can start its electric engine. This ability gives those airships almost unlimited operational  time. Those airships can make scientific and reconnaissance missions. But they can also carry rockets. Hypersonic and regular missiles. And conventional drones. That can be used for reconnaissance or attack missions.

 




The plasma-stealth and active denial systems. They can make those high-altitude systems very hard targets for missiles. The ADS system can use AI and laser technology. The same technology is used in anti-drone systems. But when the ADS detects an incoming missile. The laser can aim its beam into that incoming missile. The ADS can give new life to older aircraft. And improve the protection of modern aircraft.  The satellites. That are equipped with the ADS can also use that system against anti-satellite (ASAT) missiles. But those ADS systems. They can also turn satellites into killer satellites. 

There is a suggestion to use balloons or high-altitude airships to carry rockets into the high atmosphere. And then they can release those rockets. The idea was to use a hydrogen-filled mylar balloon to raise the rocket into the high atmosphere. And then the rocket will be released from that balloon. Same way as the high-flying airships. They could carry a Pegasus-type small rocket. Into the very high altitudes. And then those systems. They can carry the miniature satellites into orbit. The balloon itself is based on the technology. That used in Echo-balloon satellites. The mylar balloon that is filled with hydrogen. It can raise those rockets into the very high altitudes. 

Ukraine’s new missile. It can be launched from a balloon. This type. Of technology. Their missile or drone. It can be hung under a balloon and then released into hostile airspace; it can be a tool. That can improve the operational range of those systems. The weaponized application requires only the knowledge of the winds.  And then those systems can transport attack or reconnaissance drones deep into the opponent’s airspace. The high-altitude launching platforms. They can also be used to carry ASAT systems. The balloon or airship can carry the ASAT weapon into high altitude. And then they can launch those systems against the targeted satellites.  This kind of balloon technology is dangerous. It can deliver drones deep inside the opponent’s airspace. 

The drone-like electric-engined version. The Shahed-136 drone. That uses stealth technology can be dropped from those balloons. The drone. It can use similar target recognition systems. With the Javelin missile. Those drones. They can destroy tanks or aircraft from runways. If the balloon that flies at 34 kilometers drops that drone. The drone glides very far away. The 34 kilometers is the world record for a parachute jump. And the electric-engined drone can be raised to that altitude. The electric engine makes those drones silent. And they can fly very far. The high-altitude platforms. They can also drop drone swarms. These types of systems are new tools. 


https://interestingengineering.com/military/ukraine-missile-balloon-launch-jammed-area


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


https://www.wikiwand.com/en/High_Altitude_Venus_Operational_Concept


Monday, June 29, 2026

Swift-satellite rescue mission starts on June 30.




Pegasus rocket. Similar to the one NASA uses in the Swift mission. 

NASA pays $ 30 million to Katalyst Corporation to save the Swift telescope. The mission will start on June 30. The air-launched  Northrop Grumman Pegasus  XL rocket will be launched from the Northrop GrummanL-1011 Stargazer jet above the Marshall Islands. The rocket transports the Katalyst capsule to low Earth orbit (LEO). There, the capsule makes contact with the Swift telescope. And pushes it out of the atmosphere. The Katalyst corporation’s operation. It can also be used for testing rendezvous and recognition tools. 

The system. That Katalyst wants to use. It is the NEXUS. The multi-mission robotic tool that can operate in rendezvous and proximity operations. The system can act as a space bus. It transports satellites to a higher trajectory. And maybe somebody is interested in using this kind of robot spacecraft as a space tug. If there is a space tug . At an orbiter. The satellite. It can be launched. By using smaller rockets. And then the tug pulls the satellite into a higher trajectory. 


Artist's view of the NEXUS robot spacecraft that assists another satellite. 

That are urgent for that kind of mission. The data. That is collected. From this mission. It can also be used for similar missions. The purpose is to push abandoned satellites straight to the atmosphere. Or, in other cases, those abandoned satellites, including the reconnaissance satellites. Those abandoned satellites that ended their career could be returned to Earth. By using a “flying garbage can”. There is a possibility that the Chinese or Russians try to collect abandoned reconnaissance or other satellites. Like GPS or communication satellites. 



“Stargazer flight path prior to Pegasus XL deployment. (Image credit: Northrop Grumman) (Space.com)

And take them to their military bases. There, their researchers could investigate those satellites' cameras and radio tools. Those systems. They can make it possible. To jam NATO communication lines. As well as data. That data. Collected from the abandoned GPS satellites can make it possible to jam the GPS system. There is a possibility that one satellite in the wrong hands. It can open a path to jam things like the Starlink system. This threat requires an ability to react fast. In the same way. Western intelligence. It can collect abandoned opponents’ satellites. 

These kinds of systems can search, track, and push satellites. To new trajectories. They can also act as an anti-satellite (ASAT) platform. The ASAT satellite just pushes another satellite into the atmosphere. And in many visions. Those satellites. They just make contact with targeted satellites. And then throw them into the atmosphere. This is one of the things that those satellite-rescue capsules can do. In some models, the killer-satellite. It shoots the gel ammunition at the targeted satellite. That ammunition is so soft. That it leaves the satellite. In one piece. But the system acts like a space tug. And then it can drive the targeted satellite into the wrong trajectory. Or it can drive that satellite into the atmosphere. 

https://www.katalystspace.com

https://www.satnow.com/news/details/5367-katalyst-space-raises-12-million-to-develop-nexus-robotic-spacecraft


https://www.space.com/space-exploration/launches-spacecraft/nasa-to-launch-ambitious-mission-to-save-a-space-telescope-from-burning-up-in-earths-atmosphere


https://www.space.com/space-exploration/launches-spacecraft/satellite-boosting-spacecraft-inside-air-launched-rocket-space-photo-of-the-day-for-june-12-2026


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

 


Sunday, June 28, 2026

Brain-implanted microchips can steal the human’s own will.



Scientists have demonstrated that long-term neural recording can be achieved with devices nearly invisible in size, challenging assumptions about how small functional brain interfaces can be. Using light rather than wires or batteries, the system operates stably inside living tissue for extended periods. Credit: Shutterstock” (ScitechDaily,Smaller Than a Grain of Salt: Engineers Create the World’s Tiniest Wireless Brain Implant). 

This makes it possible to create new types of very highly accurate BCI (Brain-computer interfaces). And some of those systems are very dangerous in the wrong hands. 

Researchers used micromagnets to remotely control neurons. This means that the operators can use things. Like high-power radio impulses to transmit data into brains. The nano-sized magnets. They can be connected to transporter enzymes. That transports them. Into the right position. In the 1940s, German Ahnenforschung researched magic crystals. Those crystals could be used as a gate to the brain. The artificial crystal is involved. The small-sized magnet could transmit information into the brain. By using modern technology. It is possible to create a large group. 

Of nano-magnets. That will be put. Into the right points around the brain. And then the system. It can transmit data to the brain. Another version is to replace the pineal gland with microchips. That system can turn animals or even humans into robots. The microchips on the brain shell communicate with the microchip that transmits data to the pineal gland. These types of systems can play a very big role. In the ideas of people like Kim Jong-Un. The idea of that kind of robot-human. Introduced in the Judge Dredd comic books. The body would be genetically manipulated. Physically strong. 

But the creature will not have brains. The helmet that exchanges data with the computer and microchips that control this creature’s nervous system. And the operator. It can be like a brain in a vat. The remote-control system can control those biorobots. And if the operator makes something. That should not be made. The controller cuts the signal. 





“Graphic illustration of magnetomechanical stimulation. Credit: Yichao Yu and Mark Lythgoe at UCL” (ScitechDaily, Scientists Use Micromagnets to Remote Control Brain Cells)


“A new skin-like computing patch developed at the University of Chicago Pritzker School of Molecular Engineering (UChicago PME) can analyze health data using artificial intelligence in an unprecedented way. Credit: UChicago Pritzker School of Molecular Engineering / John Zich” (ScitechDaily, Scientists Create AI Skin Patch That Acts Like an Instant Personal Doctor)



“Neuromorphic devices are brain-inspired computing systems that, when integrated into soft and stretchable materials, power advanced applications like wearable AI, bioelectronic skins, and smart textiles. Credit: By Tianda Fu, Ruizhe Yang, Max Weires, Junyi Yin, Yifan Liao. And Yifan Guo.” (ScitechDaily, Scientists Are Building Electronics That Stretch Like Human Skin and Learn Like a Brain)

This makes it possible to create things like an intelligent beanie. That system can transmit brain waves to computers using Bluetooth. Or. It could communicate directly with the WLAN systems.  That allows researchers to create artificial memories. 



“Scientists have recreated videos using only the neural activity of mice, offering a new glimpse into how the brain encodes visual experiences. Credit: Shutterstock.” (ScitechDaily, Scientists Translated Brain Signals Into Movies With Surprising Accuracy)

Researchers turned brainwaves into movements with high accuracy. And that is one way to create new types of remotely controlled robots. Those robots can relay their sensory data to the user. And the user cannot make a difference. Between their own senses. And the senses that their external body collects. That is one of the ways. To create new and effective robot systems. The robot body that the user controls by using their mind. Makes it possible to operate remotely. Even on another planet. But this kind of system. It can be used to collect data for independently operating humanoid robots. 

The digital twin of the human can have many purposes. The use of those systems in medical and technological research can open new paths to create. Artificial intelligence-based technology. Like independently operating humanoid robots. The new technology. It can be used to create the digital twin of a human. That digital model can tell. If the person has something wrong. With their health. The new digital skins that involve learning microchips can tell. If a person feels stress. And it can also collect information. From the environment and the stress factors. In the environment and a person’s life. 

The digital skin can also operate as a sense of touch for robot hands. Those things. They can make. A big revolution in human life. The system can be connected to the GPS. And researchers can see if there is a certain point. There is a person who can feel stress. But the new sandbite-sized microchips. They can collect data from the human mind. Those systems. They can make outside  people. To see the same things. As those people who carry those microchips are seen. This type of system. They can be tools that make people read other people's minds. 

Those microchips can also transmit data straight into people’s brains. And this makes this system an ultimate brainwashing tool. The saltgrain-sized microchips can be remotely controlled. And they can interact with brain cells by using micromagnets. Electronics on the skin. It can communicate with those small microchips. The wireless microchips can exchange data even with GSM telephones. If a person even thinks against their controllers, those controllers can activate the brain lobes. That controls pain. If a person has a remote-controlled BCI system. That thing makes it possible to create a situation. The person will not separate virtual reality from the real world. So if somebody hacks those systems. That can cause a terrible situation. 


https://www.sciencedaily.com/releases/2025/12/251209234139.htm


https://scitechdaily.com/scientists-are-building-electronics-that-stretch-like-human-skin-and-learn-like-a-brain/


https://scitechdaily.com/scientists-create-ai-skin-patch-that-acts-like-an-instant-personal-doctor/


https://scitechdaily.com/scientists-translated-brain-signals-into-movies-with-surprising-accuracy/


https://scitechdaily.com/scientists-use-micromagnets-to-remote-control-brain-cells/


https://scitechdaily.com/smaller-than-a-grain-of-salt-engineers-create-the-worlds-tiniest-wireless-brain-implant/


Saturday, June 27, 2026

The Skyfall missile and beyond.

 

 

The War Zone shared new and interesting details about the Russian nuclear-powered Buresvestik (CSS-X-9 “Skyfall”) missile. The missile, also known as “Skyfall,” uses similar technology. To that of the U.S. military used in the early 1960s in “Project Pluto”. That was the attempt to make the nuclear-powered ramjet-driven cruise missile. The project is also known as SLAM (Supersonic Low-Altitude missile). Or, LASV (Low Altitude Supersonic Vehicle). The reason. For why that project disbanded. It was the radioactive track that this missile left behind it. The nuclear-powered system that SLAM used was a so-called. Direct cycle engine. The system used the air. That had direct contact with the reactor core. 

The reactor or its heat caused. An expansion of air. The air that travels through the reactor also cools it. And this system makes it possible to make fast aircraft. That has virtually unlimited operational time. The nuclear-powered ramjet-based systems can also operate outside the atmosphere. When those systems travel at high altitude. The ramjet. It can close the front hatch. And then transform to use internal gas or propellant. The nuclear-powered system can fill that internal propellant storage from the atmosphere. This type of ability can be overwhelming. 





“An air-to-air view of the Convair NB-36H Peacemaker experimental aircraft (s/n 51-5712) and a Boeing B-50 Superfortress chase plane during research and development taking place at the Convair plant at Fort Worth, Texas (USA). The NB-36H was originally a B-36H-20-CF damaged at Carswell Air Force Base. Also. At Fort Worth, by a tornado on 1 September 1952. This plane was called the Nuclear Test Aircraft (NTA) and was redesignated XB-36H, then NB-36H. And it was modified to carry a three megawatt, air-cooled nuclear reactor in its bomb bay. (Wikipedia, Convair NB-36H)

The reactor, named the Aircraft Shield Test Reactor (ASTR), was operational but did not power the plane. The NTA completed 47 test flights and 215 hours of flight time (during 89 of which the reactor was operated) between July 1955 and March 1957 over New Mexico and Texas. This was the only known airborne reactor experiment by the USA with an operational nuclear reactor on board. The NB-36H was scrapped at Fort Worth in September 1958 when the Nuclear Aircraft Program was abandoned.” (Wikipedia, Convair NB-36H)









Project Pluto. It is quite a similar system. To Buresvestnik, or Skyfall.


Tu-160 


But the system must use the arc-jet engine. The system uses an electric arc to expand the propellant. And that makes it possible to separate the propellant from the nuclear reactor and radioactive material. That denies formation of the radioactive track. 

The Skyfall missile uses. The direct cycle engine. There, the compressor presses air into the reactor. The reactor makes the gas expand. And that causes thrust. The problem is that. The Syfall, or Buresvestnik  missile. It  leaves a radioactive track. Behind it. The missile itself has virtually unlimited operational time. But it’s possible that the radioactive trail of that missile limits its operations. There is a possibility. That the Bursvestnik is meant. For returning to base. If it's not used. There is also an interesting possibility. That's the Skyfall missile. It can be fired by using an intercontinental ballistic missile. Then that missile returns to. atmosphere. This system could be revolutionary and deadly. 



Artist's impression of Bartini A-57. 


Another possibility. Is that. The Buresvestnik is also created for a testbed. That used to collect data. For more high-flying projects. It’s possible that Putin and his military commanders want the nuclear-powered version of the Tu-160 “Blackjack” bomber. This type of. Nuclear-powered system. Make it possible to create new types of aircraft. That can carry things. Like directed energy weapons. And unlimited operational range. The ability to operate outside the atmosphere. It gives that vehicle superpower. The idea for that kind of system. Like, nuclear-powered aircraft is not new. The U.S and Soviet Air forces tested nuclear-powered versions of the B-36 and Tu-95. The NB-36 made a couple of lights in the Cold War era. Same as Tu-95. The nuclear-powered propeller aircraft have their limits. 

So. The nuclear-powered ramjet-propelled systems. They can operate in a larger-scale environment. The nuclear-powered aircraft can also theoretically dive into the sea. So they could make the system. It can operate as a submarine, an aircraft, and a space shuttle. At the same time. The nuclear-powered system. It can have a very high power. 

In the Soviet era. Designer Bartini created. An idea about the nuclear-powered flying boat. Bartini A.57. The nuclear engine makes it possible to use the same system. As the sea-based flying boat-shaped space shuttle. That can operate from the water. This system. It could be very large. But it could revolutionize the space and aircraft technology. 


 https://www.19fortyfive.com/2025/04/russias-tu-160m-bomber-is-making-the-most-unlikely-of-comebacks/


https://www.fw-mag.com/shownews/775/what-we-know-about-russia-rsquo-s-first-long-range-test-of-the-nuclear-powered-burevestnik-cruise-missile


https://www.sandboxx.us/news/project-pluto-the-most-insane-missile-america-ever-built/


https://www.twz.com/nuclear/here-how-russias-skyfall-nuclear-powered-cruise-missile-actually-works


https://en.wikipedia.org/wiki/Bartini_A-57


https://en.wikipedia.org/wiki/Convair_NB-36H


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


https://en.wikipedia.org/wiki/Tupolev_Tu-160


The new boost for quantum technology. It will also affect binary computers.

“Proof of quantum effects in a strange metal. Credit: Harald Ritsch / TU Wien. TU Wien has detected strong quantum entanglement for the firs...