The same algorithms, that are used to model black holes can use to scramble information in pieces. And even quantum computer has problems to collect those pieces back to entirety. So by making the virtual black hole is possible to scramble data, which makes it the computers hard to collect it.
The fact is that if the qubit is made by using quarks or neutrinos, that thing can make it possible that the qubit can travel through black holes. But the making the interaction at the right moment is difficult. One version of the quantum computer uses the Cherenkov effect (Cherenkov radiation) for extracting qubits.
The qubit will launch to the sensor with extremely high speed, and when it would slowing the certain point in the underwater trajectory is the point, where the certain state of the qubit is releasing its data. And in those points of the track is sensors, which are detecting the releasement of the data of the qubits.
As the article of Physics.com is mentioned, black holes are the fastest information scrambles in the world. When a black hole scrambles information even the quantum computer has problems putting the puzzles of the information back together. So if we are thinking that thing like that, we would never get information travel through black holes.
What if the puzzles of data are marked? If we would want to drive qubits through the black hole, we might mark them with numbers, and that thing would make the computers easier to reconnect those pieces of data. But if we want to send the data through the black hole, we should need to put the connection mark to a certain level or state of the qubit.
So when the data is downloaded from the qubit, that might store in a temporary hard disk, and then in a certain state or layer is the number, what tells the system what is the certain place of the data in the data line. If the data is traveling in a quantum channel, there is no way to get that data and remain unseen. The system detects if the qubit is stolen, and if the data is shared in small pieces, that thing makes it possible to minimize the damages in the cases, that qubit is stolen.
Also in the quantum channel is traveling so-called "dead qubits", which involve the control data. Those qubits are used to control if somebody is stealing them. So the attacker must pick the important qubits from the billions of meanless qubits, that are calculated. And missing qubits are causing alarms.
But then we might think that data is like puzzles, and the quantum computer must just put those pieces back in order. So what if we would just use preprocessed data? Have you ever make puzzles, they are hard to put back together, but then we might make one thing when we are trying to remake the puzzle. We might just put numbers to those pieces if we want to remake the puzzle. In that case, the collection of the data is easy.
Source:
()https://physicsworld.com/a/messages-scrambled-by-black-holes-stand-their-ground-against-quantum-computers/
()https://en.wikipedia.org/wiki/Cherenkov_radiation
Image:()https://physicsworld.com/a/messages-scrambled-by-black-holes-stand-their-ground-against-quantum-computers/
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