Terahertz systems have a new capacity to manipulate light.

 

"Researchers have created a new method to generate structured terahertz light beams using programmable spintronic emitters, marking a significant advancement in terahertz technology. This innovation allows for the generation and precise manipulation of light with both spin and orbital angular momentum."(ScitechDaily, Terahertz Breakthrough: New Technique Offers Unprecedented Control Over Light)

"The technology has potential applications in security, medical imaging, and communication. This development overcomes previous challenges in generating and controlling terahertz light, paving the way for novel devices with enhanced capabilities. Credit: SciTechDaily.com" (ScitechDaily, Terahertz Breakthrough: New Technique Offers Unprecedented Control Over Light)

New terahertz systems use spintronics to create radiation. The system uses spintronic-based programmable spintronics. And those spintronics have an important role in the new terahertz systems that can open paths to new communication and photonics control. 

The system where photons are trapped in the terahertz radiation can be incredibly multi-used. Researchers can use that thing for making new sensors and new communication tools. 

Terahertz radiation can make channels that can used to manipulate photons. That thing can used in the new photon-based neural networks, that can sense electromagnetic and even gravity waves with new accuracy. Those systems can make it possible to collect data about gravity waves and their interaction with other radiation types. 

"(a) Schematic diagram of the experimental setup. (b) Schematics of the laser-assisted-magnetic-programming method. Credit: Shunjia Wang, Wentao Qin, Tongyang Guan, Jingyu Liu, Qingnan Cai, Sheng Zhang, Lei Zhou, Yan Zhang, Yizheng Wu, Zhensheng Tao" (ScitechDaily, Terahertz Breakthrough: New Technique Offers Unprecedented Control Over Light)

Teraherz-radiation is one possibility for the new communication lines. Those kinds of things are important for the 6G and faster communication. The terahertz radiation allows to make more channels for the 6G communication. 

That thing makes it a very interesting tool is that the terahertz radiation goes through the walls. That makes this thing a very promising alternative to laser communication. The laser ray will not normally travel through walls. And that limits its use in the wireless network. 

"UAB researchers have developed an innovative switch for 6G communications that doubles performance to 120 GHz and reduces energy use, promising enhanced sustainability and efficiency in telecommunications." (ScitechDaily, High-Frequency, Low-Power: Researchers Develop Switch To Revolutionize 6G Communications). It's possible. The 6G network can also use terahertz frequencies. Terahertz frequencies involve more frequencies and more space in that network. 

Coherent terahertz or terahertz masers can offer safe and effective communication tools. They can be the new tools for communication in highly populated areas. Terahertz masers can send their data in a coherent package. If the eavesdropper cannot put the antenna in the Terahertz radiation that makes communication safer, because the eavesdropper must precisely know, where the message travels. 

Coherent terahertz radiation allows to send multiple messages in the same way as lasers. The messages travel like laser beams, but terahertz radiation uses different frequencies. That means the coherent terahertz radiation can also offer to use bandwidth more effectively than in non-coherent communication. In terahertz technology, the system can send more data if it uses coherent terahertz-based data transport. 

https://scitechdaily.com/terahertz-breakthrough-new-technique-offers-unprecedented-control-over-light/

The photonic neural networks make messages safer.

"Researchers at the Max Planck Institute for the Science of Light have developed a simpler and potentially more sustainable method for implementing neural networks using optical systems." (ScitechDaily, Neural Networks Made of Light: Photon Power Drives the Next AI Revolution)

The AI requires a very secure data transmission. The purpose of ultra-secured data transmission is that the outside effects don't harm information. 

When data travels in a complex structure high-level encryption guarantees that only receivers of the data can receive it. Because the entire network will not handle the same data, that leaves reserve in that network. 

That guarantees that neural networks cannot be stuck. If there are some kind of problems with the photonic or electric routers the system can put information to travel in other routes. 

This structure where the system follows the minimum force principle saves energy. But it allows the system to handle multiple missions at the same time. If the problem is complex, the intelligent system connects more calculation units for that problem. 

The photonic networks are the new tools for computing. There are two versions of the photonic networks. The first one is the optical neural network, where electric data cables are replaced by optical cables. In that system, the information travels in the laser rays. The laser ray that is targeted to photovoltaic cells can transfer data more securely than electric systems. Eavesdropping normal electric data cables is quite easy. Eavesdroppers must just put a sensor on the cable. And observe changes in voltages. 

Eavesdropping the laser systems is not so easy. To steal information from coherent light, the system must push the sensor into the laser ray. And that is seen as the decrease of the light power. If the laser ray is covered using another, hollow laser ray, that denies the eavesdropper to see that laser ray.

The intelligent system can also share information into data packages using TCP/IP protocol. And then the system can send those data packages by different routes. The system can put a serial number into each data package, and that allows the receiving system to sort them into the right order. That system can send data in mixed order, which makes it hard to open. The data packages can send in white noise or meaningless data packages, which makes attackers work harder. 

Artistic illustration of a neuromorphic system of waveguides carrying light. Credit: @ CC Wanjura (ScitechDaily, Neural Networks Made of Light: Photon Power Drives the Next AI Revolution)

Quantum photonic neural network. 

Quantum neural networks can revolutionize AI. In those systems, superpositioned and entangled photons form multi-state quantum computers. 

A photonic neural network can be the net of the superpositioned and entangled photons trapped in the nanotubes. The photons will be trapped in the points of the carbon frames in the nanotubes. 

The idea is that the carbon frames in fullerene nanotubes can stop photons at a certain distance from each other. Then that superpositioned and entangled photon series acts as a photonic neural network. 

3D quantum photonic neural networks. 

Theoretically is possible to make the photonic brains. The 3D quantum structure operates like quantum computers. The problem with the 3D photonic brains is this: the system requires the ability to stop photons. The trapped photons act as photonic routers and gates. 

If the receiving photon's energy level is higher than the transmitter, the information cannot reach the receiver, and the gate is closed. When the transmitter sends information at a higher energy level than the receiver that energy makes the receiver oscillate and the gate is open. 

The other way is to use noble gas atoms (or small fullerene molecules) to close and open the information route to the quantum nanotube lines. The idea is that those atoms are at the crossroads of those structures, and they can be used to select the route, where information can travel. 

Another way is to use noble gas atoms in the structure that act as router-switch. The router can be the flap system like noble gas atoms, that close the fullerene nanotube or quantum channel. And that thing means the router is the nanotube structure where the data can travel in selected routes. 

And if the system can trap photons in the photonic crystals or some kind of photonic field, that would be the greatest possible quantum computer. It's possible. Photonic crystals or artificial "industrial" diamonds will involve channels, there are 100% reflecting mirrors. 

Or in the wildest visions, standing wave movement can hold photons in their position. Those waves can make photons travel in wanted directions, or even put them to hover in wanted positions. 

The ability to make the 3D nanotube structure, and grow diamonds around them can make this thing possible. But that requires that the nanotube structure can keep its form in melted metal, where diamond grows. In that structure, there could be a frame at the crossroads of the nanotubes, where the photon is trapped. Information travels between those photons in the form of electromagnetic waves. 

https://scitechdaily.com/neural-networks-made-of-light-photon-power-drives-the-next-ai-revolution/

The AI's effect on our lives is not always positive.

AI can help us to live more effectively and healthily. The AI that follows things like stock marketing can make people wealthier than ever before.  But does it serve us too much? Things like food delivery robots bring food to our door. And that means that we must not go out anymore. And the loss of exercise can cause problems with health. 

It can observe what we eat and calculate calories, but then we must read and follow those instructions. AI can make a training program that helps to improve our health, but the thing is that it's on us if we follow that program. If we don't follow those things, that thing has no effect. 

The other thing is that we can work at home. And if we have the AI-based investment tool, that thing can guarantee that we will not lose any money in places like stock marketing. The system can follow the advance of stock value, and then it can select the targets, that give maximum profits in a short period. The system can hold those stocks until their value turns lower. 

Things like the Internet can make our lives easy. But then those things can help us to isolate from other people. If we just order things from the net, and then some robot brings that thing to our door, that has a bad influence on our physical conditions. Same way human bishops can also have the same effect. 

So, in the middle of all technology, we must take care of our health. The Internet is a good place to share and get information. But the thing is that we must have abilities to analyze and use that information. In the worst case, the Internet is like Plato's cave, where people search only for information. That supports their own opinions. The creator of information like a web page has responsibility for the information's authentication. 

Or they can recycle old information without bringing new things to those researches. The problem with recycled information is that they don't notice any new tools. There is, as an example time before the JWST and after the JWST in astronomy. That telescope operates for two years, and its calculated lifetime is 20 years. It made researchers rethink the form of the universe. 

When the internet is connected with physical things, that thing makes users sofa potatoes. Automatized vehicles can drive to the front door, and the robot can carry a person into that car. 

The AI can take care that the lights are off when we walk out. It can adjust energy use to a minimum. That is an ecological thing. But the machine rooms and servers require lots of energy. How much do those things produce pollution? That depends on the way, that that system produces its energy. 

When we think about things like the BCI operating prosthesis. Those systems are interesting tools. But then those AI-based things can used to control the man-shaped robots. BCI-controlled exoskeletons can give people super forces. 

The same system can leave people's natural muscles without use. And that increases our addiction to technology. Computers are effective tools until there is some cut in electric delivery. That thing returns us to reality. Nothing works in modern society. 

The computer is useless without electricity. The thing that limits the use of robots is also electricity. The AI  can create artificial DNA, but then it must remove the old DNA from targeted cells, and during that process, the AI must remove the old DNA. The thing is that the BCI-controlled tools can make our lives better. But in the wrong hands, the BCI is the system, that takes all freedom from people. 

The BCI makes it possible to connect the entire human race into one entirety. It can make it possible to create manufacturing tools, that transform imagination into images. And then the AI can turn those images into real things. 

When we think about those things, we must realize, that AI will not change anything, if we don't want that. AI is an ultimate tool, but we cannot benefit from it if we don't follow its instructions. Then we must realize that AI will not go to the gym or joggy for us. When we develop the AI, we must take care of ourselves. Our health and body are similar to they were 2000 years ago. 

https://www.freethink.com/society/techno-humanist-manifesto-introduction

AI will have a big effect on work life.

When we use things like AI chatbots we must remember, that we, humans are the boss. The AI follows our orders and gives information. But the thing that we must remember is this: the answers that the AI can make depend on the sources. If the thing that we ask is very rare. That causes an effect, the AI can give answers. That is not suitable for that situation. 

We must avoid waiting too much for those chatbots. The AI chatbots use the same data sources as humans. And when we give orders to chatbots, we can follow the same rules, that we follow with humans. The orders must be clear, and then we must check the answer. 

Cheating the AI is quite easy. The cheater must only make a fake homepage, and then raise that homepage's page rank. And if the AI doesn't know trusted page details, that thing makes it possible to make the AI give wrong information. The same way the cheater can cheat humans. 

When we operate with the AI we can think that the chatbot is the new teammate. We must give correct and clear instructions to the AI so that it can make what we want. If our orders are not correct, or we give them in unclear form, that means the AI cannot make anything right. 

The AI offers a good platform for training the vocabularity. The same thing that operates with AI works with humans. The boss must give clear orders in a form, that workers can understand and follow them. 

If we use AI chatbots to make computer programs, we can see that the system makes that code very fast. That gives more free time for workers, and that is an opportunity to kick half of the people away. But then we can think that the company uses the time, that the AI chatbot releases for development cycles, and time for grinding the product. That extra time can also used for innovative work. 

That helps to make better products. The AI-based chatbots allow you to make double checks at work And it decreases stress levels. It allows time to ask and give advice and discuss the projects. Those kinds of things can bring workers back to the office. And when people feel comfortable, that increases productivity.  Companies can use that extra time to make new products and turn old products better. That keeps the customer's interest in products higher and improves sales.  

AI-powered robots can make it possible to turn any factory into a fully automatized manufacturing platform. 

In business life only profits mean something. A company that uses lots of workforces cannot compete with robot factories. Robots don't need salaries, and they don't need lunch breaks. And that makes them more effective than human workers. There are two ways to turn the factories automatically. The first way is to buy computer-aided production systems. Another way is to use human-looking robots. Those humanoid robots can operate analog machine tools. And that makes those robot-men interesting. And that gives them a potential opportunity to create automatized manufacturing platforms. The man-shaped robots are suitable for military operators. 

The man-looking robots can operate any equipment, vehicle, and vessel. That means those robot-men can turn any warship into a robot. In that case, the AI-operating robots can operate as the ship's crew. 

The fact is this. We cannot avoid the use of AI. AI faces similar resistance to the Internet and other kinds of things. We, humans, make choices where we want to use the AI. If we want to kick half of the workers away and create doomsday machines, choice is us. Then we can think the AI as a tool, that can revolutionize our way of thinking. Things like robot armies are terrifying things, but same time those things offer small countries similar operative capacities to large countries. Small countries will get more benefits from robots than large countries. 

https://bigthink.com/business/5-ways-the-new-wave-of-chatbots-will-transform-our-work-lives/

https://www.eureporter.co/internet-2/artificial-intelligence/2023/11/02/unleashing-the-power-of-artificial-intelligence-ai/

Image: Pinterest

Vacuum tubes can open new paths for quantum communication.

"Researchers outlined a new method to build a quantum network that spans the country by using vacuum beam guides, in which qubits can travel thousands of miles inside small vacuum-sealed tubes. Credit: SciTechDaily.com. (Scitech.Daily/ From Sci-Fi to Reality: Vacuum Tubes Could Revolutionize Quantum Networking

Vacuum is a good tool to protect information and keep the system's temperature low. If the superconducting computers are in a thermos bottle there is a vacuum in their walls, that helps to keep the temperature low in the liquid nitrogen, which is suitable for the superconducting computers. 

The other thing is this. Vacuum offers a dirt-free area for the photonic computers. In some visions, the photonic computers are in vacuum boxes. And that offers a stable environment for those machines. Air molecules will not disturb laser rays that can operate through the vacuum. The liquid gas like nitrogen is used in the cooling systems. 

But in the photonic computers, the laser ray can also travel in vacuum tubes. Those vacuum tubes can protect laser rays from outside effects. And in the most interesting visions, quantum computers can also be in the vacuum. The system makes quantum entanglement through nanotubes, and the quantum system operates in a vacuum, which minimizes the outcoming effects. 

In some models, communication cables should go in vacuum tubes. A vacuum is a good insulator that keeps the cable in stable condition. Another thing is that the vacuum can offer a thermos-solution for superconducting cables and that helps to keep temperature in the system low. The vacuum chamber also helps to detect, if somebody tries to get data, that travels in wire in the wrong hands. 

To steal information, the eavesdropper must get the sensor close enough to the wire. For that thing, the eavesdropper must break the shell. And that fills the vacuum. In that case, the pressure sensor tells that somebody is trying to steal information. 

There are no molecules in a vacuum. Dust doesn't flow in vacuum tubes. And that makes those channels ideal for quantum communication. The clean channel makes laser rays travel in them without disturbing scattering. If outside sensors don't see the laser ray, they cannot get messages in their hands. And that thing makes the vacuum tubes a good tool for protecting and delivering information in new types of quantum systems. 

https://scitechdaily.com/from-sci-fi-to-reality-vacuum-tubes-could-revolutionize-quantum-networking/

The AI with an empathy gap can turn dangerous.

"New research at the University of Cambridge identifies a significant “empathy gap” in AI chatbots, posing risks to young users who often see these systems as lifelike confidants. Highlighting incidents where AI interactions led to unsafe suggestions, the study advocates for a proactive approach to make AI child-safe. It proposes a comprehensive 28-item framework to help stakeholders, including companies and educators, ensure AI technologies cater responsibly to children’s unique needs and vulnerabilities. Credit: SciTechDaily.com" (ScitechDaily, Cambridge Study: AI Chatbots Have an “Empathy Gap,” and It Could Be Dangerous)

Researchers created the empathy gap for AI so that it can turn to feel like humans. The idea is that AI can make customer service missions, and that thing makes it feel like human. There are already services that people can transfer things like salesmen calls to the AI, that discuss with sales agents. The idea is that this thing takes those salesmen's time, and creates more costs to the marketing companies. 

The empathy gap makes also it possible to create computers and simulators that test people's behavior. People like therapists or salesmen can use those simulators to improve their professional skills. But sometimes people don't realize that the empathy gap is much more than some simulator, that tests people's selling skills. 

Ai is a machine. And in machines, all parts must operate without surprises.  The empathy gap means the module, reacts like real people react to things like sadness, but the empathy gap means that the AI can react to things, like verbal abuse. The AI can imitate things like anger. These kinds of things might seem very nice things. 

The problems begin when users connect generative AI with physical bodies. AI is a very good tool for conveying verbal orders to robots. The verbal command that involves abuse activates the empathy module. And then that empathy module can make the robot act like an angry person. 

The AI-based empathy gap is one of the tools that make AI look like humans. This ability makes it possible to create robots that can imitate certain people. This kind of thing makes cyborg-humanoids more trustworthy than we can imagine. Those humanoid robots can have innovative skin, that looks and feels like real skin. 

That thing allows us to create robots, that can play or act on certain people. Intelligence, police, and the military can use those cyborgs in deep-cover operations. And the reason for that is this: those cyborgs don't take money from criminals.

These kinds of humanoid robots can collect data from drug gangs. Or they can deliver information from the enemy HQ. In some wild visions, the enemy commanders can replaced using cyborgs. Those cyborgs can eat regular food like humans. They can operate using biological energy production like cloned electric cells from electric eels. That kind of robot can multiply itself. 

The term Von Neumann machine means self-replicating machine. The "Von Neumann" cyborg can construct copies of itself even using Black&Decker. 

The Von Neumann cyborg can self-replicate. If the robot has access to some factory, it can make copies of itself by using each machine itself. Or it can deliver its production orders to car factory's robots. Then it can just copy its operating system to the descendant. 

The problem is that cyborgs can create descendants themselves. The "Von Neumann machine" means a self-replicating machine. Cyborg can take the robot factory under its control. Or it can use the engineering works to make copies of itself. 

https://scitechdaily.com/cambridge-study-ai-chatbots-have-an-empathy-gap-and-it-could-be-dangerous/

https://scitechdaily.com/next-gen-robotics-scientists-develop-skin-that-heals-feels-and-looks-human/

The Pentagon rewrites the AI and its relationship with the military.

We know that AI is a tool that can be terrifying in the hands of the military. And the military must be terrifying because its mission is to protect people. For that purpose, the military needs the best equipment. That the military industry can create. 

The war in Ukraine shown how effective drones are. That means drones are successful tools for seeking enemies, and another thing is that drones are suitable weapons. If we want to turn kamikaze- drones into the unmanned bomber, that can hit two targets in the same trip. 

The pizza drone can drop a bomb at the point, where it should carry pizza. Then it can attack against a second target with an internal warhead. The system is very easy to modify, and that's why drones are effective and dangerous systems. The drone swarm can cover large areas. And the drones can share information very effectively. The drone can use the AI-based enemy recognition system. So, when a drone sees a target, it can attack immediately. 

Above: Finnish desing: Havoc M-750

The drone can cooperate with land-moving autonomous vehicles and automatized firebases. There is a possibility, that the next-generation drones- or land or sea-moving systems can also fly. The Finnish-designed robot wagon can shoot targets using a 30 mm. cannon. And it can carry anti-tank mines. 

That system is easy to modify into a land-moving car bomb. The system would be a modern version of the WWII "Goliath" miniature tank, that German forces created to destroy enemy targets. The Goliath was a land-moving vehicle that carried explosives. Modern technology allows us to turn robots into land-moving car bombs. 

The same technology, that was developed for "flying cars" is possible to use for those combat robots. The robot can travel to the target through air, and then it can drive into the bunkers. 

When we are looking at the U.S NAVY newest drone called the Manta Ray, we can ask possibility, that maybe we see quite soon the "Flying submarine" drone. Those drones might travel underwater, and if their target is in the middle of land, they can travel by air to attack that target.

There are smaller drones that can operate underwater and airborne. The Kamikaze-version of those drones can equipped with nuclear warheads. And the success of sea drones in Ukraine makes them more popular in other militaries. Maybe the Manta Ray itself cannot make that thing. But its successors might have that capacity. 

Above: Manta Ray

The kamikaze-drone boats can equipped with anti-aircraft missiles and anti-tank missiles. The boat can make routine patrol missions. There it can defend itself against helicopters and aircraft with the missiles. They can use anti-tank missiles against small targets or disturb and destroy things like target ships's radars and cannons. The main weapon of that drone can be an internal warhead. 

The thing is that Ukraine successfully used drones against the Russian navy at the Black Sea. Those surface-moving drones are harder targets than expected. The surface-moving drones have limited capacity. But if those drones can submerge and send other drones, they can be more effective than ever before. 

Above: TV-8: The nuclear-powered tank, that never accomplished. 

Above; Ford Nucleon (Wikipedia, Ford Nucleon)

Above: German WWII Goliath tracked mine (Wikipedia, Goliath tracked mine)

A new attacker requires new counter-actors.  And that means nuclear power can be the power source for the next-generation tanks, that use direct energy weapons. But people forget that the Chrysler Corporation produced the first nuclear-powered tank TV-8 in 1955. Ford Motor Corporation patented Ford Nucleon, a nuclear-powered pick-up in 1957. Those vehicles show that nuclear power is suitable, also for ground vehicles. The fact is that the nuclear-powered version of the TV-8 ever completed. But it was a study project for other concepts. 

Drones can also make other than just explosive attacks. They can drop copper wires over the high-voltage cables. Military forces around the world are looking for counter-action systems against drone swarms. Micro- or radiowaves can jam or destroy drone swarms. The EMP impulses are suitable tools against drones. The problem in defense is that the opponent can use large-size drone swarms. They can deliver from air, ground, or ships. Drone attackers don't require special equipment. And they can drop drones from the back hatch of the cargo plane. 

So, the defender needs tools that are independent of the ammunition. Direct energy weapons are suitable for that purpose. And those systems require new power sources, like portable nuclear reactors. The tank that uses laser- and microwave weapons can use the nuclear reactor as a power source. In those systems, high-power lasers and microwave systems replaced the cannons. Vehicles like Ford Nucleon and Chrysler Corporation's nuclear-powered tank TV-8 show that nuclear power could be suitable for land vehicles. And the laser-weapons require lots of power. 

https://defence.in/threads/top-secret-us-navy-drone-manta-ray-spotted-on-google-maps.7759/

https://www.freethink.com/robots-ai/military-ai-silicon-valley

https://www.northropgrumman.com/what-we-do/sea/manta-ray

https://www.mikrobitti.fi/uutiset/suomalaiset-taistelurobotit-kulkevat-jopa-100-km-h-ampuvat-30-mm-tykilla-ja-rajayttavat-miinoja-kiinnostus-herasi-kansainvalisesti/978bfdae-bb6a-499b-a5ad-7282b7402edc

https://www.slashgear.com/1394150/story-behind-chrysler-nuclear-tank/

https://www.the-sun.com/news/11713362/drone-spotted-on-google-maps-scrubbed-from-internet/

https://www.warhistoryonline.com/military-vehicle-news/nuclear-tank-chrysler-tv8.html

https://en.wikipedia.org/wiki/Chrysler_TV-8

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

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

The AI outperforms humans in the Turing test.

"A study at the University of Reading revealed that AI-generated exam answers often go undetected by experienced exam markers, with 94% of such answers going unnoticed and achieving higher grades than student submissions. The researchers call for the global education sector to develop new policies and guidance to address this issue".  (ScitechDaily, AI Outperforms Students in Real-World “Turing Test”)

"The study emphasizes the need for a sector-wide agreement on the use of AI in education and highlights the responsibility of educators to maintain academic integrity. The University of Reading is already taking steps to incorporate AI in teaching and assessment to better prepare students for the future." (ScitechDaily, AI Outperforms Students in Real-World “Turing Test”)

The AI can handle larger datasets in a shorter time than humans. This is why it can outperform humans in Turing's test. When a human sees sources, humans must open every single source. And then determine how useful they can be. 

The human user must read every word so that they can determine things, how useful the article is. If the AI has orders to use trusted sources like well-known research institutes or universities and trusted governmental pages. The AI can connect data better and more effectively in the product. 

The AI can also ask for help from those servers. And those servers can sort data in order. So that the last accepted files are at the top. And then the AI can refer the texts into the product, which is acceptable faster than humans. When the AI makes those data handling operations, it can filter all other than accepted sources. 

So the AI can search and sort results using the name ending. The system can use only the sources. Whose name has a suffix such as .gov at the end. Or it can search the sources. There, things like CERN make them liable. 

That ability makes the AI an ultimate tool. The thing that is missing in search engines is the ability to determine the details or attributes of trusted sources. The user should determine which page groups, like ".GOV" pages. The system should be introduced as the top. That makes the search engines more effective. 

The use of the AI grows. And we must be prepared for that. We must use and learn to use the AI. But we must realize that AI doesn't think. The AI connects data from different homepages into the new entirety. The AI can observe things like how often certain home pages will be updated. 

If somebody introduces something as a scientific fact, the system can search other sources for plagiarism. But it can also search for differences. And if some image is taken by using JWST. The JWST server must have a copy of that image. And if somebody tries to change that image, the server should warn about that kind of act. 

https://www.investopedia.com/terms/t/turing-test.asp

https://scitechdaily.com/ai-outperforms-students-in-real-world-turing-test/