The new type of quantum processor might be the box, where photons jump between mirrors.

Light in both its forms, wave and particle form

The scanning tunneling microscope has given the idea for quantum computers. The electrons or some other particles would spin between those antennas and the energy layer pumped to those qubits can be used to control them. This kind of system might also be useful in quantum computers. 

But the problem is that the magnetic qubits are interacting with the magnetic fields. The photonic qubits are immune against the outcoming magnetic fields. The form of the photonic qubits is the box, where the light is traveling between mirrors. If the light jumps between mirrors without loss. That thing makes it possible to create the time crystal, where is no need for outcoming energy. 

The new photonic qubit could be the box, where the light travels between mirrors. That box is filled with plasma or gas. And the sensor is observing the changes in the size of the quantum fields of those atoms or ions. Or otherwise, they are observing the changes in the brightness of the atom. And this is the reason why this kind of energy stress is called "quantum annealing". 

The lightwave interacts with plasma and raises its energy. When a light wave passed the atom or ion, its energy level decreases. That change of energy can observe by using the sensors, that are sensing the changes of the quantum field of the plasma. Maybe also the regular atoms can be used for that mission. The light wave is also affecting the same way to the quantum fields of the non-ionized atoms. 

The image above this text portraits light in both wave and particle form. This kind of data is necessary for making the qubits in quantum computers.  If we are thinking of the system, where the electrons or ions are riding with the light waves that kind of information can be extremely interesting for making the new type of qubits, which might have different layers. 

The light or photonic state and then the electrons might also have their states of qubits. So the system operates as the hybrid quantum system. That is connecting the electrons and the photonic qubits in different states. Time crystals are good material for quantum computers, but there is one problem. Time crystals need outcoming energy for maintaining wave movement. 

If we are looking at the image of the light waves. We might think about the possibility to close those light waves in the box. If we can use extremely good reflecting and stable mirrors we might minimize the loss of the radiation. 

And then the light waves of qubits are sharing data with each of the sensors. The system can use the ionized gas, where the light waves are jumping between mirrors. When the top of the wave reaches the plasma, that will increase the energy of the plasma. And that thing can measure by using the system, which meters the size of the quantum fields around the ions of plasma. 

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Image:()https://actu.epfl.ch/image/33361/1108x622.jpg