Ion technology and supercomputing
The biggest problem is re-assemble the particles.
Teleportation is the basic simple thing. The person or object that wanted to transfer to another place just turn to the ion cloud, what will shoot to the target, and then the ions must take the same place in the structure, where they were before this process. And the re-assembling the object is the biggest problem, but if we could someday make the ion cannon, what can shoot ions to the certain place by using necessary precision, we could maybe in someday make this thing true.
The thing, what makes this technology very difficult to make is that the magnet field must stop each ion in the precise place. That thing would make possible to transfer objects through the wall if we could create the magnets, what can stop each ion in separately in the right position. There is a little different if we would have able to transfer things like screwdrivers by using ion transfer, to using living organisms by using that technology.
Transferring data by using very cold ions.
In fact, we could store the data to the very cold ions, and then shoot those ions through walls, and this technology will be used in the quantum computers. In this case, the quantum computer would transfer the information by using some kind of ion cannon, which will have the capacity to shoot many ions in the same direction in the same line, and the storage of information would acting like some crystals, what can store the data in the certain form, but that would cause the need the temperature, what is near the absolute zero point.
There is also planned to use so-called nano-size crystals for information storage, and then those tiny diamonds would fly across the microcircuit, and in theory, this system would be very easy to create, but there are many practical problems in the real-life solutions. The diamonds or quartz crystals would have the ability to store information at a very low temperature.
And if we would want to use those crystals for sending information we must just throw them to target, where the oscillation would transfer to data. But this method is a little bit clumsy for real-life use, but this is an only theoretical way to create the computer, which could be very effective if it would work. The thing is that sometimes the oscillation is planned to store in the liquid Helium.
The needed temperature is near zero Kelvin
Or actually the superfluid, what is ionized, and then the ion cannon would shoot that very cold liquid in the microchip, or in theory, regular pumps would allow transferring the superfluid in the tubes, what is connected to the sensors, where the data would be released. This kind of versions are only thoughts, what kind of computers we could make in the day of tomorrow, and as I have many times written in the future, we might send he supercomputers to space far away from the Earth. In fact, places like the Kuiper belt is offering a very interesting place for supercomputers, what should be in the superconducting condition.
Of course, those computers can be installed many RTG-generators, but there is a possibility to use nuclear reactors. If we would send that kind of computer to the moons, where is the volcanic temperature, those systems could use geothermal energy. In this case, the liquid gas, what might be liquid nitrogen or methane can rotate the turbines as well as water, and if we would have human-shaped robots in use, those robots can use the artificial intelligence to assemble the computer in the distance, and in this scenario, those bases would be unmanned.
Robots can use to assembly the superconducting computers on the icy moons of the Neptune and Pluto in the future.
The robots will be programmed to assemble the base by using virtual reality, where the robots would teach to use the tools and put the microcircuits in a certain place. And in practice, this thing would happen that the assemblers would use data gloves and data suits in the assembly, and those actions will be recorded to those robots.
In this futuristic case, the problem is that those robots must also know if the microchips are installed properly, and act in the right way if they drop the screwdriver. The tools and microchips can equip with RFID-systems, what would tell which place they should be installed and when the microcircuit in the properly installed. The radio transmitter would tell that to those robots, what must operate independently in the distance, where the radio transmitting would take many hours to reach those robots.
That kind of robots must use advanced telemetry and network for those processes. But if some case would feel too difficult, the robots would ask the assistance from the command center, what will send the instructions like movement tracks to the robots, what might operate in the surface of some icy moon.
The biggest problem is re-assemble the particles.
Teleportation is the basic simple thing. The person or object that wanted to transfer to another place just turn to the ion cloud, what will shoot to the target, and then the ions must take the same place in the structure, where they were before this process. And the re-assembling the object is the biggest problem, but if we could someday make the ion cannon, what can shoot ions to the certain place by using necessary precision, we could maybe in someday make this thing true.
The thing, what makes this technology very difficult to make is that the magnet field must stop each ion in the precise place. That thing would make possible to transfer objects through the wall if we could create the magnets, what can stop each ion in separately in the right position. There is a little different if we would have able to transfer things like screwdrivers by using ion transfer, to using living organisms by using that technology.
Transferring data by using very cold ions.
In fact, we could store the data to the very cold ions, and then shoot those ions through walls, and this technology will be used in the quantum computers. In this case, the quantum computer would transfer the information by using some kind of ion cannon, which will have the capacity to shoot many ions in the same direction in the same line, and the storage of information would acting like some crystals, what can store the data in the certain form, but that would cause the need the temperature, what is near the absolute zero point.
There is also planned to use so-called nano-size crystals for information storage, and then those tiny diamonds would fly across the microcircuit, and in theory, this system would be very easy to create, but there are many practical problems in the real-life solutions. The diamonds or quartz crystals would have the ability to store information at a very low temperature.
And if we would want to use those crystals for sending information we must just throw them to target, where the oscillation would transfer to data. But this method is a little bit clumsy for real-life use, but this is an only theoretical way to create the computer, which could be very effective if it would work. The thing is that sometimes the oscillation is planned to store in the liquid Helium.
The needed temperature is near zero Kelvin
Of course, those computers can be installed many RTG-generators, but there is a possibility to use nuclear reactors. If we would send that kind of computer to the moons, where is the volcanic temperature, those systems could use geothermal energy. In this case, the liquid gas, what might be liquid nitrogen or methane can rotate the turbines as well as water, and if we would have human-shaped robots in use, those robots can use the artificial intelligence to assemble the computer in the distance, and in this scenario, those bases would be unmanned.
Robots can use to assembly the superconducting computers on the icy moons of the Neptune and Pluto in the future.
The robots will be programmed to assemble the base by using virtual reality, where the robots would teach to use the tools and put the microcircuits in a certain place. And in practice, this thing would happen that the assemblers would use data gloves and data suits in the assembly, and those actions will be recorded to those robots.
In this futuristic case, the problem is that those robots must also know if the microchips are installed properly, and act in the right way if they drop the screwdriver. The tools and microchips can equip with RFID-systems, what would tell which place they should be installed and when the microcircuit in the properly installed. The radio transmitter would tell that to those robots, what must operate independently in the distance, where the radio transmitting would take many hours to reach those robots.
That kind of robots must use advanced telemetry and network for those processes. But if some case would feel too difficult, the robots would ask the assistance from the command center, what will send the instructions like movement tracks to the robots, what might operate in the surface of some icy moon.
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