Quantum microchips and photonic interactions.

"Artistic representation of metasurface quantum graphs. Credit: Joshua Mornhinweg" (ScitechDaily, Harvard Just Collapsed a Quantum Computer Onto a Chip)

Harvard scientists built a quantum computer on a chip. And that drives advances to the room- or table-sized quantum computers and quantum networks. This kind of system can also make the quantum internet, at least in the short range, possible. But long-distance wireless quantum communication requires new tools like photonics. Some researchers say that the future is in photonic microchips. That means the light acts as a data transporter. Those systems will use less energy than electric microchips.  But that thing requires new systems like optical gates. Today, researchers can make photonic microchips, but those systems are large-scale, and their mirrors and light cutters require AI-based systems that can control those light-based components. 

The main problem is how to make effective photonic versions of the electric components. And especially the photonic gates and switches are hard to make. The reason for that is that leaders will heat the physical iris. And controlling that system is not as effective as it should be. Data travels differently in those microchips. Theoretically, the system can use two frequencies or colors. The green can be one, and red can be zero. The system inputs serial numbers to those photonic bits so that the system can sort them into the right order. But the control system is very complicated. 

"Light can scatter off light, revealing ghostly particles and clues to cracking the universe’s fundamental laws. Credit: SciTechDaily.com" (ScitechDaily, Light Versus Light: The Secret Physics Battle That Could Rewrite the Rules)

Photonic interactions can solve many problems in quantum networks. If we think of a system that shoots a thin light wave or light quantum through the photon, that system can make the new quantum internet possible. The system downloads data to the particle from the photon, and then that data travels to that wave. For working perfectly, that system requires very accurate ways to control photons and their interactions. The photonic systems that are in the photonic interactions, where light scatters light to make possible things like optical gates. The photonic gate means a system where another lightwave or photon cuts the route of the lightwave. The system can also adjust the energy level of the light wave or adjust the lightwave’s wavelength. 

The photonic system that scatters light allows the cone that protects microchips and sensitive components against outgoing radiation. That system makes lightwaves travel past the layer. It would deny electromagnetic waves from reaching the shell of the system. The photonic interaction or scattering effect can make it possible to create new types of stealth systems. The idea is that the light or photons form a needle that scatters lightwaves past the object. If that scattered light can aim electromagnetic radiation to reach and reflect from the surface or aims reflection out from the observer, that thing makes the object itself invisible. There can be standing waves at the crossing point of the scattered waves. So the observer would see the lights in those points. 

https://scitechdaily.com/harvard-just-collapsed-a-quantum-computer-onto-a-chip/

https://scitechdaily.com/light-versus-light-the-secret-physics-battle-that-could-rewrite-the-rules/

 The singularity of consciousness. 

Quantum teleportation makes it possible to transmit data between neurons and computers.

The image above the text could demonstrate the idea of the straight-operating BCI(Brain-Computer Interface) The BCI can also mean (Brain-Controlled Interface), but they are almost the same thing. Normally the BCI needs a microchip. But there is the possibility that the brain could control the microprocessors straight by using the superpositioned and entangled magnetic fields. 

So that kind of system might not require any kind of microchips for interacting with computers. And the only thing that the computer needs are a radio receiver-transmitter that can resonate with neuro-electricity. And the system must have high enough accuracy that it can decode and code the EEG signals straight from the human body. 

Artificial intelligence and superconducting technology can make this kind of system possible to make in real life. The AI can separate the wanted signals from the white noise. And that thing makes it possible to connect the BCI straight with the nervous system. 

The same systems used with the neuroprosthetics can use to move virtual objects like virtual hands on the screens. And those virtual hands can operate with virtual control tables connected with robots or the central computer of the jet fighter. 

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The quantum entanglement can make TRV (Technical Remote View) possible. 

Tardigrade is quantum entangled. In the quantum world, the quantum entanglement might consist of the entirety. Or only small parts of the organisms or other entireties can be entangled. The thing is that also if only a couple of ions or electrons are entangled. That can affect the entire organism or quantum entirety. 

The entangled electrons and ions can cause quantum annealing to the quantum system. And in the case of living creatures, that kind of effect can cause electromagnetic resonance to the nervous systems of the organisms. That kind of case might have a big effect on the entirety. 

The thing is that part of those organisms might be quantum entangled. But the entirety of tardigrades is not entangled. When somebody is talking about entangled organisms they mean to create conditions. Those organisms could share data. 

A simple way to teleport is to connect VR (Virtual Reality)-set to the quadcopters that are equipped with microphones and CCD cameras. 

So we might think teleportation is the case where our senses are connected with the remote systems. The simplest way to make that thing is to connect the VR (Virtual Reality)system with a drone with a microphone and cameras. Those sensors can transmit data to the controller like the controller be physically at the place. 

Their sensors collect with other organisms or machines connected in the same network segment. Or simply saying people who have the same frequency  In normal cases, those people talk bout connecting the brain waves of the organisms as one entirety. 

In that case, the EEG curves of the organisms would synchronize to the same frequency. And that thing can create by using the superpositioned and entangled electromagnetic fields. In that case, the data travels between superpositioned and entangled magnetic fields. And that allows users of the system can share their senses and other things with everybody. That is connected with this network. 

Tardigrade is the first multi-cell organism that is quantum entangled and lives after that. The tardigrades were frozen. And then the quantum entanglement created between them. After that those small animals wake up. The thing is that the entanglement of the tardigrades might not seem very impressive. But it's one of the greatest advantages in the history of quantum systems.

When we are talking about quantum teleportation we mean the situation where the oscillation of atomic or subatomic particles would synchronize. And that thing makes those things act like they would be the same particle. 

Sometimes we are forgetting that also electromagnetic fields can superpositioned and entangled. And that thing opens new visions for controlling quantum computers. If the electromagnetic fields of the nervous system and quantum computer are connected and synchronized. That allows that computers can share data between living neurons. And humans can control computers straight with EEG waves. 

The TRV (Technical Remote View) is one version of the (BCI (Brain-Computer Interface)). The technical description of the TRV is that the camera system is connected with Virtual Reality. That system can locate in the bag of the bug and the operator can see the things that happen in some room like really being inside that space. 

Sometimes are told about the things like eavesdropping tools that are installed in teeth implants. And today those miniaturized systems can send GPS data and biometric information even to satellites. Also, the new spy cameras that are the size of a salt grain can be hidden in contact lenses. And along with nanotechnical microchips, that system can transmit data to the Internet by using the mobile telephone as the relay station. 

The origin of the BCI is in neuroprosthetics as I wrote before

The origin of the BCI is in neuroprosthetics. The EEG-based control systems. That can control the prosthesis. Those microchips can install surgically to the head of the person. Or they can locate in the helmet, and that system can revolutionize robotics and computing. 

Same way as the EEG waves can control the prosthesis they can control human-looking robots, aircraft, and space systems. And those systems are under development by governmental and private companies. 

The system can use a virtual workspace where the brainwaves are moving virtual hands which are using virtual consoles. And that system means that the computer of aircraft can connect straight with the computer of the aircraft or man-looking robot. 

The BCI is the system created for controlling the intelligent prosthesis. The same microchips can connect humans to the Internet or control robots by using their EEG. TRV is the remote radio-or quantum-based system that can communicate with human or animal brains from long distances. 

The technical remote view can create by using the superpositioned and entangled magnetic fields. The idea is that the radio wave will send the data straight to neurons benefiting magnesite crystals. 

Another magnetic field would form by using the radio transmitter which sends radio waves by using a frequency that is making the targeted neurons oscillate. This kind of system can turn any organism into a robot or read neuro electricity and the distance that this system can make those things depends on how sensitive the receiver is. 

And another thing that this system requires is the coder-decoder that can turn the EEG into the code that can introduce on the computer screen. And of course opposite way. 

The ability to transmit data between neurons and computers gives a possibility to create half-organic and half-quantum computers. Those are more powerful than any existing computer system including quantum computers.  And they would be even more powerful than human brains. 

Those systems are only one solution that this kind of TRV system can use. Another thing is that by using the TRV-system is the intelligence work. The senses of humans or animals can connect with computers. And those systems can also use to transmit data between human brains. 

https://www.cnet.com/news/no-tardigrades-have-not-been-quantum-entangled-with-a-qubit/

https://futurism.com/in-five-years-your-smartphone-could-be-reading-your-mind

https://futurism.com/researchers-have-linked-a-human-brain-to-the-internet-for-the-first-time-ever

https://www.iflscience.com/physics/tardigrade-might-be-first-animal-to-be-quantum-entangled-and-live/

https://www.livescience.com/tardigrade-quantum-entangled-experiment

https://mspoweruser.com/microsoft-is-working-on-a-brain-computer-interface-but-for-a-good-reason/

https://www.nextbigfuture.com/2021/12/camera-the-size-of-a-grain-of-sand.html

https://www.sciencealert.com/physicists-claim-they-ve-entangled-a-tardigrade-with-qubits-but-did-they

https://www.sciencedirect.com/science/article/abs/pii/S0925231220314223

https://en.wikipedia.org/wiki/Brain%E2%80%93computer_interface

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

Image:https://mspoweruser.com/microsoft-is-working-on-a-brain-computer-interface-but-for-a-good-reason/

The need of the customer plays a primary role in data technology.

   

 The need of the customer plays a primary role in data technology. 

Determining the use of the system is important because that makes systems effective, and the multi-use tools might first seem more uncomfortable and slower than single-use systems. The thing is that when the power of the hardware is rising. Code that is driven on the hardware is turning more complicated. 

And the similar advantage continues in quantum computers. The need to drive more complicated code for more independently operating artificial intelligence. Causes that also the power of quantum computers must increase. The thing that makes this need is that if some researcher can leave the entire routine process for computers that releases the time of that person for some other things. 

In scientific work and other duties, boring mechanical works can be left for AI-driven systems. 

The AI can use for routine duties like observing the searching the changes in the brightness of the stars. In search of an exoplanet, most of the work is searching the brightness of the star. That thing need also the most of the time. 

That can leave the routine work like observing the changes of the brightness of the star for artificial intelligence. That thing releases the time of that person for some other works. 

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The route of data handling.

Simply and easy-to-use systems that can use for fixed solutions.

Stage 1: Pocket calculator

Stage 2: Scientific calculator

The route went to modular and easy-to-use solutions. And the last things like neural networks are self-learning tools. They are needed only the data matrixes that they compile with data that the system collects from the environment. 

Stage 3:Computer or stand-alone-computer

Computer or stand-alone-computer was a great advantage: User can customize modular systems can by using the software.

Limited-environment-connected computers: Allows asking help from the workmates. But the problem is that reserves the time of the workmates. And download pre-loaded software to the computer. 

Stage 4:Internet-connected computer:

Internet-connected computer: Gives access to the unlimited program library. Open space or open-source connected systems allows independent search for data. But the worker must have skills how to analyze that data.

Stage 5: Internet-connected computer:

Neural networks are the key in machine learning: Those are learning systems. The beginning of those systems is the indexing tools of the internet. The system can recognize the situations by using certain parameters. 

Those parameters can contain information about the things that happened before the bomb strike. And then the system can compile the data that is collected from surveillance cameras to that data matrix. 

Stage 6: Quantum computers

Quantum computers. Those systems are millions of times more powerful than binary computers. They can run more complicated code and algorithms than any binary computer before. The computer can search data from the internet. And make the solutions by using open-source data. 

Stage 7: Quantum neural networks:

Do the computers of the future have imagination and feel like humans? And could they be more intelligent than humans who made those systems for serving themselves? 

Quantum neural networks: Self-learning internet- or quantum-based network interconnects quantum computers. The ability to send qubits between quantum computers is removing borders between those systems. And that thing means there is no limit to the code that the system can run.

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Determining the use of the system is important because that makes systems effective, and the multi-use tools might first seem more uncomfortable and slower than single-use systems. 

When we want to compare pocket calculators and quantum computers the pocket calculator seems more comfortable and useful than quantum computers. The pocket calculators are effective tools for solving everyday mathematical problems like what is the cost of ten butter boxes. 

But if we want to solve more complicated mathematical problems like exponent and geometrical functions we need scientific calculators. Those functions are made in those calculators. And that thing minimizes the possibility of human error. 

Solving those problems can make by using regular pocket calculators is possible. But pushing buttons is more complicated. And there is the possibility that the user of the pocket calculator makes mistakes while inputting data. The reason why we are buying the calculator is that we want to make our life easier. 

Pocket and scientific pocket calculators are impressive tools for solving mathematical problems but they are limited. The abilities of those systems are fixed in those electronic tools. These calculators are the RISC tools. They are effective in some very limited sectors. But if we want to use our systems for something else, we need a new type of system. 

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Intelligent mobile telephones are like pocket computers. There is the possibility to load applications for those systems That mean the system is the modular solution for the data handling problems. 

The hardware is the same. And the physical system is only the platform that runs software. The software-based solutions are making those systems flexible. And they can customize to the needs of the user. 

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Sending qubits in long ranges can be made by using nano-tube-based particle accelerators. In that case, the electron-based qubits are shot between quantum computers by using particle accelerators. 

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The computer is the tool that is answering the problem of multi-use tools. A single computer can use for solving mathematical problems. But there might be some kind of writing software. And that means the system can be used also for writing reports. But for searching data, the system operator requires the book. 

If that computer is connected to the network the user can ask for help from the working mates. But if the computer is connected to an open network, that thing allows that the user of the system must not borrow workmates. And searching data is easier. The network-based systems can keep a book about the most common searches. 

And that means they can index searches. That on the top is the most common search. The system can also preload the data for the users. This thing is the beginning of machine learning. 

The next steps are the neural networks. Those networks are searching for data. And storing it. The system can also collect data about the connected searches. Which often follows a certain type of search. If certain searches often follow some other searches the system can also preload those following searches. Or the predicted following searches. That thing is deeper learning than just storing the prime searches. 

The quantum computer is the ultimate tool for the quantum computer. The quantum computer is the ultimate tool. For analyzing the data that is collected from the internet. And the next step is the development of quantum networks. 

The quantum network is the ultimate connection of quantum computers. If quantum computers can communicate by using quantum technologies. That thing means that the quantum computers use the qubits also for long-range communication that means that there is no limit for the size of the quantum computers. Sending the qubit can make by using nano-tube-based particle accelerators. That is shooting electrons where the data is stored between quantum computers. 

https://visionsoftheaiandfuture.blogspot.com/