The problem in a quantum computer: How to protect data that is stored in a data carrier?

The problem in a quantum computer: How to protect data that is stored in a data carrier?

The new thing about quantum teleportation is that it's in a vital role in quantum systems and especially quantum computing. Quantum computing is the thing, where extremely small particles are transporting data from one place to another. The quantum particles are the electrons and even smaller particles like quarks and photons. The quantum system bases the combination of the data transportation particles and the nano-size structures, where the single electron or the photon interacts. 

And the nano-structure can be the series or statue of silicon atoms. When an electron or photon would hit to that structure, it causes the change of the electricity and the system would detect that change. But the problem is how to make the data transportation by using the electrons or some other subatomic particles is how to protect that data? How to isolate those particles, that the magnetic fields don't erase the data? 

The electrons can shoot to target inside the laser ray, which protects them from outside effects. If the data can be stored in the electrons or ions, that thing makes it possible to make the secured data storage. The system requires that the electrons and ions will keep away from the walls of the quantum hard disk, which can be the USB-stick. If those ions or electrons are touching the wall, they will lose their data. The quantum-USB is the magnetic chamber, where those particles are hovering. And if that storage is opened. The data will be lost immediately. 

In some bizarre visions, the data inside the ion-USB will be stored in the antimatter. The ionized antimatter or positrons (anti-electrons) can store data as the normal electrons. So if the system will detect unauthorized use, that will open the magnetic chamber. That thing causes an extremely high-power explosion.