Quantum cryptology and use the gravitational waves in the highly secured quantum systems.

 

What if we can someday in the future create synthetic gravitational waves? Can we use them as the qubits in futuristic quantum computers? 

What term quantum cryptology means?

In normal encryption, the message or the ASCII numbers forming the information sent to the receiver is multiplicated by using prime numbers. That thing offers the PGP (Pretty Good Privacy). But the quantum computers are causing that those regular encryption processes are leaving history. 

Quantum decimal numbers that are consisting billions of numbers are making the encryption secure. But the problem is that quantum computers will calculate those decimal numbers very fast.  And that thing makes it necessary to use quantum encryption. 

The quantum encryption bases the qubit. The idea is to make a real or virtual qubit, and the system operates by using a similar process with real qubits or quantum computers. The system bases the idea that the electricity will send through the voltage meter. And the graduation of the meter is acting as the key. Every single change in voltage of the system is acting like the tread depth of the key. In this kind of system, the receiver must get the right series of electric impulses wich length and power are right. And that thing is the extra key for securing the data. 

In some other systems that secure code is sent to the router. Not straight to the entire system that receives the data. The router sends the information to a certain data line. There is a processor at the end of each data line, and the code that allows opening the message is only in one or two processors. In that kind of system, before the message, the sender will send the message to the receiver to confirm the receiving ability. 

When the receiver sees the message and confirms the identity, the system reserve the data handling unit and route to the message. If the sender would send the wrong key, the system will route it to the wrong data handling unit. And the message cannot be open. 

Gravity waves and quantum-size black holes can be the key element in futuristic quantum computers. 

Quantum computers are advancing. Technology that is behind them is more advanced than ever before. But maybe in the future, we can use extremely powerful quantum annealing systems for making quantum computers more effective than before. 

Theoretically, the black hole or the group of quantum black holes can acting as qubits. If the system uses quantum size black holes as the qubits. That kind of system requires energy pumping for maintaining the black holes. Without outcoming energy, the quantum-size black hole is vaporizing immediately. 

So the energy to the black hole can adjust by using laser rays. And when the energy pumping is ending, the existence of a black hole is also ending. The same way the brightness of the normal and quantum-size black holes can adjust by using laser rays. 

And if the quantum-size black holes are stressed with laser rays, that thing can make the gravitational waves in the system. The gravitational waves can interact with superpositioned and entangled photons. And if they can be created synthetically, that thing makes it possible to use gravitational waves in the qubits.  

In some futuristic versions of quantum encryption, the quantum systems might use technology. That we even haven't imagined. One of the most futuristic ideas is to use synthetic gravitational waves for transporting data in quantum computers. 

The LIGO (Laser Interferometer Gravitational-Wave Observatory) has proven that gravitational waves can interact with laser rays, so there is a possibility that in the future the synthetic gravitational waves will target the superpositioned and entangled photon pairs. The laser rays are sending the synthetic gravitational wave to those extremely accurate receivers. And that can make it possible to create a qubit, which is extremely secured.

The synthetic gravitational waves and quantum annealing systems are also giving interesting visions that the data can send through dark matter. In that model, the quantum system transfers the data to dark matter. And then return it to regular material by using two laser rays. Which are interacting together by using the gravitational waves.