Hanyang University College of Science and Convergence Technology's Department of Applied Physics Professor Kwon Young-heon's research team revealed on May 25 that they discovered for the first time that classical selection can influence 토토사이트 주인공 informative properties.

This research is expected to help understand the phenomena only occurring in the invisible 토토사이트 주인공 world to act as the key for 토토사이트 주인공 codes or 토토사이트 주인공 computers.

The 토토사이트 주인공 world is governed by 토토사이트 주인공 physics, which is a physical world where 토토사이트 주인공 mechanical phenomena occur. Depending on the classical probability that the system has prepared, a special situation (non-entanglement non-locality) can be determined. 

“Non-locality without entanglement” refers to the situation where the quantum state is recognized using all means of classical communication, such as when two people are far apart, regarding certain non-tangled quantum states. It also refers to the case where two people's guesses on the quantum state are not identical.

Previously, there were no research methods to prepare quantum states that provide “non-entangled non-local” characteristics in different probabilities. The research team devised three different 토토사이트 주인공 states that provide such situations. Furthermore, they discovered for the first time that according to the classical information from the quantum communication using quantum states, the efficiency and security of information transfer were determined.

Professor Kwon Young-heon said, “Through this research, we discovered that quantum world characteristics (non-entanglement non-locality) are determined by the preparation method of quantum states (classical probability of quantum states).” He also added, “When small changes occur in classical probabilities, the characteristics of the quantum world can change accordingly.”

This research was supported by the Ministry of Education, National Research Foundation of Korea's Basic Research Enterprise, the National Research Foundation of Korea and the Ministry of Science and ICT's quantum computing support development project. The research result was published in the international journal on quantum information “NPJ Quantum Information”.