LOFAR unveils the unintended electromagnetic echoes of Starlink satellite.

The network of satellites is a useful tool. If the satellites are forming a layer that covers the entire Earth that kind of network can be an extremely useful tool for location, recon, and power supply by using wireless power transmission. The satellite network with telescopes can see every single missile launch on Earth if those satellites can cover an area that is large enough. The satellites can have anti-ASAT systems that can protect them against physical ASAT weapons like anti-satellite missiles. 

The unintended echoes of low-flying satellites are problematic things. Unintended electromagnetic echoes form when electromagnetic radiation impacts satellites. And then that radiation reflects from those objects. The fact is that the reflection of electromagnetic radiation is the thing. That makes a major part of electromagnetic fingerprints of space junk. In the past, the U.S. Air Force researched the possibility to make an electromagnetic shield around Earth by using pins.

The idea was good pins act like Tesla coils. The practical problem was that those pins must be precisely on the same level. And that requires extremely highly accurate positioning of those pins.  But the system requires that those pins are at the same level and all of those pins are in the same direction. If that kind of form of pins is possible to make that system. It can make it possible to create a radio-wave layer between those pins.  

"Figure 1: Artist’s impression of a large satellite constellation in low-Earth orbit circling above the LOFAR telescope. Credit: Daniëlle Futselaar (artsource.nl)" (ScitechDaily.com/LOFAR Uncovers Starlink’s Secret: Unintended Electromagnetic Emissions From SpaceX’s Satellites)

"Scientists have used the Low Frequency Array (LOFAR) telescope to observe unintended electromagnetic radiation from SpaceX’s satellites. This radiation, different from regular communication signals, may disrupt astronomical research. The study calls for regulation to protect radio astronomy from such unintended radiation and commends SpaceX for collaborating on mitigation efforts".(ScitechDaily.com/LOFAR Uncovers Starlink’s Secret: Unintended Electromagnetic Emissions From SpaceX’s Satellites)

There is the possibility to create an artificial ionosphere for the moon using Tesla coils. The radiowaves travel between those pins. And the pike aims those radiowaves to the moon. 

If multiple power satellites aim their lasers at one point, they can destroy Earth's surface. The thing is this, the same satellites used as the power supply can use in ASAT(Anti-Satellite) and ABM (Anti-Ballistic Missile)missions. 

There are plans for sending power satellites that send energy to the ground by using lasers, radio masers, or microwaves. Those satellites could benefit high energy ions of the Van Allen belt. And in that passive system satellite, or network of relay satellites can make the system that can send electricity wirelessly to every point on the Earth. 

The problem is that multiple satellites can connect their power and aim their transmitters at one point. That system acts like Death Star's laser. That kind of modular system could be very much powerful. If multiple laser satellites aim their laser at one point that can make those systems dangerous also to the ground objects. 

The system can give energy to high-flying aerial vehicles. The system can harvest energy from the Earth's ion belts. But it also can benefit radio waves that are sent from the ground stations. This kind of system can connect the power satellite and communication tools into one entirety. 

Intelligent technology is the future of agriculture.

In some visions, the cereal can be two species. While those plants are growing. They can have the same ability with sundews. They can eat bugs, and when those plants are ready they can transform into normal cereals. The idea for this xenomorph vegetable is that by connecting two DNAs the researchers can create a vegetable that can turn into another vegetable when farmers need to reap it. 

The ability to manipulate the DNA makes it possible to create new types of crops. Those crops can create antibiotics while they grow or they can be poisonous while they are green. When they turn ripe, those artificial crops can remove their poison. 

Biotechnology and advanced nanotechnology make it possible to create new biological products. The next-generation artificial crops can use to make things like medicines. Or by making hybrids with things, like hemp and the cells that make the spider web. This thing makes it possible to create next-generation ropes that are stronger than steel. That is one version of what intelligent nanotechnology can make. 

In some visions the biotechnical furs and skin replace animals. The ethic skin means animal skin made of cloned skin cells. Those skin cells will produce in a petri dish. And they can use a similar way with "natural skin". Another thing is that the same technology can use for producing skin transplants for humans. 

"Barath Raghavan, an associate professor at USC Viterbi, is pioneering “computational agroecology,” a novel approach to sustainable agriculture that utilizes computational tools to design diverse, optimal farming ecosystems. The researchers have conceptualized agriculture as a search through a “state space,” which comprises all possible configurations of a system, such as a farm, enabling farmers and researchers to explore, simulate and find optimal combinations of various factors like crop selection, soil type, weather conditions, irrigation, and pest control, potentially revolutionizing farming planning and techniques". (ScitechDaily.com/Computational Agroecology – The Future of Farming)

The miniature robots that can use to clean plantations from bugs are poison-free application that uses AI to control the nutrients and water of the system. The AI can use small-size robots to keep harmful bugs away. Or the system can use microchipped ants and other cyborg bugs to clean the plantation. 

One thing that makes miniature robots suitable for protecting plantations is that they are multi-use tools. The robot can clean fungus from grain stalks. And the same system can remove all bugs that can danger the plantation. 

AI is an ultimate tool when the system must control large entireties. The AI can observe things like plantations with very high accuracy. The top level of these kinds of visions is the entirety. Nanotechnical computers can observe the things like poisons and water levels with nutrients from every single grain of straw. 

The nanocomputers can be driven to the leaves of those straws. And they can use the flow in the grain straw veins as a power source. Those nanotechnical computers can look like small bugs that push their legs in the veins. There are small water wheels that give energy to those robot mites. Those systems can communicate with each other by using laser LEDs. If there is enough large number of those miniature robots the system can observe every single grain of straw until the grain is cut. Before the reaping the system calls those miniature robots away. 

https://scitechdaily.com/computational-agroecology-the-future-of-farming/

New waves in superconductivity.

Superconducting materials are important things in computing. The superconducting nanowires allow transporting data without losing its form. Superconduction makes it possible to create small mass memories and hard disks. The superconducting hard disks are only metal wires whose atoms are in the low energy level. That removes oscillation from the structure. And then this metal wire can store information in its original form. 

Superconductivity is one of the most promising things in nanotechnical microchips. The reason why nontechnical microchips require superconductivity is simple. Those extremely small components require very low voltages or electricity jumps over routers. Superconductivity is the thing that keeps data in its form while it travels in an extremely thin cable. The origin of superconductivity research is in the photoelectric phenomenon. 

"In this illustration of the superconducting material Eu-1144, the blue and magenta wave shown above the crystal lattice represents how the energy level of the electron pairs (yellow spheres) spatially modulates as these electrons move through the crystal. Credit: Brookhaven National Laboratory" (ScitechDaily/Superconductivity Breakthrough: First Direct Visualization of a Zero-Field Pair Density Wave)

When a light impulse hits the silicon layer that releases electrons from those atoms. And that makes things like photovoltaic cells and solar panels possible. The reason why the photoelectric phenomenon happens in pure silicon is that silicon is tighter than iron. Because silicon atoms are close to each other the released electron or wave movement from the atom stressed with photons pushes the electron out from its trajectory. 

In silicon is no free space where energy or wave movement cannot go. The free space between atoms causes standing waves in the material. When electron or wave movement travels between atoms they must cross the standing wave. Also, the oscillation of atoms sends wave movement that resists information (electron or wave movement). That thing is resistance. 

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The requirement for superconductivity is this. The distance between atoms must be minimum. And the other thing is this. The system must remove the oscillation of those atoms. 

The most common way to make superconduction is simply to decrease temperature. Another thing is that the atoms are locked on a layer by using pressure or electromagnetic fields. Those systems are suitable for 2D materials. The 2D structure is easy to lock on the layer created by carbonite glass or some ultra-tight and ultra-slight layer. 

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A traditional superconducting system decreases the wire's temperature. That process minimizes free space between those wire's atoms. The extremely low energy level causes a situation. That those atoms cannot oscillate as in warmer systems. When atoms oscillate. They send wave movement that will superconduct we must realize that the material must be very tight.  

Free space between atoms is the thing that makes superconducting impossible. If atoms when some kind of stress impacts those atoms or their electron shell the energy travels across that system. The interaction between electrons in the superconducting wires looks like a series of metal balls. The atoms are close enough to each other that energy travels through quantum fields in superconducting materials. That denies resistance. Otherwise saying: the closer the atoms are to each other, the lower the resistance.

The solar wind can give ideas for new types of ion engines.

The Parker solar probe found a new magnetic field on the Sun, that pushes plasma to a speed,  higher than the escaping velocity. And that magnetic pushing effect is one of the things. That creates the solar wind. The solar wind is the particle flow out from the sun. The magnetic field that pushes ions to speed that makes those particles travel out from the sun's gravitational field is an interesting tool for maglev (Magnetic levitation system). 

Normal maglev technology uses the repel of the same polar magnets that push objects above the ground. The problem with traditional maglev systems is this. They are connected with fixed platforms like railroads and other surfaces. The magnets are on that platform. And then they will push the craft or train up. 

The ion-based maglev systems give freedom and make the craft free from platforms. The idea is simple. The system creates the plasma (ionized gas) cloud under it. The thing that makes the plasma could be laser-ray. Or it could be some other type of electromagnetic system. The idea is that the system creates a cushion or plasma could that acts like repelling magnets. 

The system can create the mono-ion field by separating anions from that field by using magnets. The system must drive those anions to the point where they have minimum effect on the thing. That must levitate. This kind of system that use external plasma fields can drive the crafts at a very high speed. The surface plasmon polaritons can push ionized gas away from the aircraft's route. 

In that case, the polaritons are in the aerodynamic pike. But there is a possibility that this kind of system can make the plasma wave behind the aircraft. The idea of that system is that another ion system pushes plasma to that ion wave. 

Then those ions reflect from the plasma and give thrust to the system. This kind of plasma pulse system uses two tracks. The first track pulls ions over the surface of the craft. And focus them behind it. Then another plasma system shoots another ion flow to that ion wave. The system can be installed in a saucer-shaped craft. And by using routers the system can adjust the place of the ion wave. And reflecting ions will shoot to that wave by using radially installed ion cannons. 

Along with surface plasmon polaritons, the system can make this kind of technology more effective. The idea is that the surface plasmon polaritons are pushing the plasma away from the shell. In some of the most futuristic ideas, the surface plasmon polariton can use to turn things like water molecules in the same position. And that allows to create the mono-frequent EM waves on the shell. 

https://scitechdaily.com/improved-thermal-conductivity-in-semiconductors-heat-transfer-using-surface-plasmon-polaritons/

https://scitechdaily.com/parker-solar-probe-finds-magnetic-energy-near-suns-surface-enables-solar-wind-to-reach-gravity-defying-speeds/

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

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

The many faces of AI

AI and machine learning are revolutionizing the business world. The AI can search multiple objects at the same time. And it can buy and sell to multiple targets at the same time. So that thing makes it possible that AI cannot lose in stock marketing. 

The AI is a tool that is here to stay. We know that some people want to deny the development of the AI. The problem is that this kind of advantage turns the underground. And things like authoritarian governments and criminals can offer money to developers. This is a big problem in the world of AI. The code itself is free. And everybody who has deep knowledge of coding can make the AI. 

The AI is an ultimate tool in intelligence and military operators' hands. There is the possibility that there is a militarized version of the ChatGPT and that system could be more dangerous than nobody expected. The militarized AI that runs on quantum computers is the ultimate tool in the computing world. 

Machine learning is not black and white. There are multiple things that AI can make. Same way robotics are not good or bad. The purpose of robots determines whether are they good or bad. If we are middle of a conflict the opponent is bad. And that justifies the use of necessary force against that "bad". 

Everything that robots makes. Is programmed by the programmers and the robot itself does nothing. The robot is only a shell, controlled by computers. Another thing that makes robots good or bad is their access to systems that affect the environment. 

The same robot, that carries pizza into a certain GPS point. Can also drop a grenade to the other point. That means the only purpose determines is AI or robots good or bad. And then the ability to make something like getting weapons determines can a robot do something. 

But we don't realize that AI with quantum computing is a dangerous tool in itself. There is the possibility that the network-based AI can make DDOS attacks against military servers. Things like wireless systems, for example, BlueTooth allow AI can communicate with humans. The system must hack earphones or the computer's loudspeakers. And then it can start communicating with people. 

Learning machines are allowing people to make perfect fakes. Machine learning allows the AI can trace the letters of certain people. The system must just see the text that somebody writes. And then it can trace the style by calculating the average style and phrases. That targeted person writes on the letters. The AI can measure the interest of the target by following how long the target spends with certain letters. 

Today the internet is a more complicated interconnected system than ever before. The interconnection makes it possible, that one data security fail can give hackers access to multiple databases. So the AI can interconnect data from different sources for making certain user profiles. 

https://scitechdaily.com/giving-robots-rights-is-a-bad-idea-but-confucianism-offers-an-alternative/?expand_article=1