Diatoms, nanomachines, and the computer sciences
Diatoms or their cores can use as miniaturized data storage and the parts of nanotechnology. Do you remember CD-ROMs or DVD (Blue Ray) ROMs? Those things were used in the past for storing data before the network-based applications turned those things old fashion. But there might find a use for extremely small optical disks because of that kind of data saving tool very resistant against the electromagnetic radiation, and by using modern technology the DVD and Blue Ray storage can store an extremely large number of data.
So what if we could use the cores of diatoms for that kind of purpose. In this technology, the data would store in the disk by using extremely thin laser, where the diameter of the ray would be so thin as possible to write data to those miniaturized optical disks. And the idea is to benefit the core of disk-shaped diatoms, where the laser would store the data like in the normal-size optical disks.
The idea is to store the data, which should not be damaged to those microcrystals, and that kind of data would be the computer programs, what is used for controlling space probes, and in theory, the entire history of mankind can be stored to those nano-sized optical disks. The small size optical disks are very strong against mechanic corrosion, and that's why they could be effective systems for storing data.
Use as the parts of nanomachines
But the cores of diatoms can be used in many other purposes in nano- and mini technology. They can be used as the miniaturized clutch, which can be used to control the miniaturized motors. And the lasers can also machine those miniaturized parts to miniaturized pinions. If there would be holes in the core of diatom, that thing can be used in miniaturized filters. And the most fascinating tools, that nanotechnology can ever create are the miniaturized "satellites" that would travel inside the human blood veins.
They might have propellers or miniaturized paddle wheels, which allows them to float on the air or travel inside the human body. Those satellites can use magnetic levitation for hovering on air, and that means that below them must be the magnetic layer. But if they are used for searching damages in the places like satellites, manned and unmanned spacecraft and -stations they can hover in zero-gravity conditions, and as I have written many times, they can create their energy by using high-power radio waves.
Radiowaves can deliver energy to miniaturized submarines, what can travel inside the human body, as well in the water lines of the city, and search the things like extraordinary bacteria and pollution. Those systems can capture even single bacteria, and they can search for many things, that people ever can find.
In some ideas, those robots might be used against bacteria and other harmful cells by equipping them with miniaturized centrifuge guns, what would shoot the medicine or something that makes holes to the targeted cells, and those miniaturized satellites can operate inside the human body.
But the can also be used for checking things in the water tubes, and machine technology. In that case, miniaturized robots would travel inside the machines. Those robots can be equipped with RFID-chip, which allows locating every each of them. And miniaturized cameras or laser detectors, what can scan the layer.
One of the most interesting areas, where that kind of thing can operate is space technology. The spacecraft could hover miniaturized robots, which are getting their power from the radio waves. The system would locate the place of every single robot, and those small satellite-looking things can search the damages, which can expand from the places, where normal people cannot even look. And if the group of those miniaturized robots is flowing in the same direction, there might be a leak in the spacecraft.
Image:
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