How can the quantum system be in chaos and order at the same time?

  

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How can the quantum system be in chaos and order at the same time?

A Frankenstein of Order can help to create a new type of quantum processor that is smaller and operates at higher temperatures than the present quantum microprocessors. The chaotic energy field can protect the data transportation layer. 

The image above portrays the Frankenstein of Order. The blue areas could be the energy fields and the lines could be the routes of particles. And as you see the quantum system is in order and disorder at the same time. This Frankenstein of Order can use in the next-generation quantum computers in data transportation. 

If the magnetic field is protecting the data transportation layer by isolating it from other radiation. That thing can make a new era for quantum processors. The particles can be protected by using the laser-rays and the data transportation particles can travel inside the laser rays, which protects them against the outcoming electromagnetic radiation. 

The quantum system is in chaos and order at the same time very simple way. The electromagnetic fields between the particles are maintaining a chaotic state. And the particles that are moving between the nucleus of the quantum network are in order. So because chaos surrounds order, we can say that the chaos is feeding order. 

When the particles are traveling in the electromagnetic fields what can be very turbulent. That electromagnetic field transfers the energy to those particles. Because the chaotic field is surrendering the order-layer, that means that the information is very hard to observe if the observer would stand outside the system. 

The turbulent electromagnetic field is isolating the particles that are traveling in the electromagnetic field. And that makes it impossible to read data from those particles outside the turbulent electromagnetic field. 

The energy travels always to the particle or the less-energetic point. And if the energy load in the turbulent electromagnetic field is more energetic than the particle that travels inside it. That thing makes it hard to detect the particle, because the electromagnetic field is more powerful, and the electricity travels to the particle.

When we are thinking about white light, that light or the form of photons is in disorder. And laser light is coherent, which means it has only one frequency or wavelength. 

So laser-ray is the photon row, what is in order. The idea of the combination the order and disorder in the photonic data transmission is simple. The laser light that transports the data is traveling inside white light. When the laser ray is traveling inside the powerful white light. The laser ray can detect if it is pointing to the sensor. But otherwise, it's hard to notice. When a coherent energy ray travels in the white light, it should keep its form, and the frequency (wavelength) of the radiation in white light what is the same as the coherent light will pump the energy to the laser ray. 

So if the frequency what the laser uses is removed from the white light. That means that the laser ray doesn't be disturbed. But let's go back to the quantum system what is in order and disorder at the same time and how that system can benefit the data transport. One version is to send the particles, what should transmit data inside the laser or maser radiation, what mission is to deny the interaction between the particle and magnetic field. 

https://scitechdaily.com/a-frankenstein-of-order-and-chaos-researchers-discover-a-hybrid-quantum-system/

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