Quantum technology realizes science fiction

According to scientists, quantum science will be "crowned" with a series of applications to overcome other classical sciences in the fields of computers, artificial intelligence, information security .

At the World Quantum Science Conference (ICQT) taking place in Moscow (Russia), scientists 'presented' their research and discussed their applicability.

The World Quantum Science Conference (ICQT) in Moscow (Russia) is organized every 2 years - (Source: TECH INSIDER).

1. Global quantum computer system

Quantum computers are always the obsession of quantum professionals around the world. This concept was first mentioned in the 1980s by famous physicist Richard Feynman.

Many efforts of both the scientific and financial circles are pouring into this future technology. Quantum technology is the key to solving all problems that seem impossible or 'out of control' for our computers today.

Professor Mikhail Lukin's group built the world's most powerful quantum computer today (Source: TECH INSIDER).

Currently, Harvard University professor Mikhail Lukin's research is the first "navigator" to prove that quantum computers are not science fiction.

Lukin's group created the world's most powerful quantum computer. It only uses 51 quantum bits to perform its calculations.

Most quantum computers are often unstable and cannot be used. However, the invention of the Lukin group was evaluated by the founder of the Russian Institute of Quantum Serguei Beloussov 'like a plane that can take off, turn and land very gently'.

2. Call to Mars

Communication with Venus is now possible - (Source: TECH INSIDER).

Depending on the location of the Earth and Mars in our solar system, radio waves can take 3 to 22 minutes to travel between the two planets. Without a more effective transmission method, the Internet on Mars could not be true.

Quantum technology can solve this interruption and form a continuous transmission line in space.

Dr. Arkady Fedorov, head of the University of Queensland's Department of Superconducting Quantum Equipment Research, said his research focused on " superconducting cubits".

Cubites are often used to process information in quantum computers. Instead, Fedorov has them react with magnetic waves, making them easily controlled within a certain limit.

The final key to making communication in space become a reality is that a transceiver capable of turning this wave into optical light.

3. The secret is coded to quantum level

If you have a strong computer, you can decrypt any encrypted message. However, if you use quantum to encode messages, no one other than the person you want to send can decrypt them.

This is the basic concept behind quantum encryption technology, which promises a more secure communication era.

"The classic encryption method allows storing encrypted messages until they can be decoded," said Vadim Marakov, head of the Quantum Hacking Laboratory, University of Waterloo (Canada).

Accordingly, the quantum encryption protocol cannot be broken. We cannot read the message without changing it. Recording to decode is also impossible.

4. Artificial intelligence

The robot can self-learn without pre-programming - (Source: TECH INSIDER).

Quantum technology is also considered the "missing material" for today's artificial intelligence technology. Quantum computers can help scientists create their own programmed intelligence and improve their self-learning ability.

Quantum particles do not follow any physical rules. They can appear everywhere without moving a distance and exist according to the superposition (superposition) principle.