An international team of scientists, using a quantum chip of Google’s artificial intelligence called Willow and Power, which previously showed that we might live in a multimedia, saw a strange phase and have not yet observed the material. The research team of Munich Technical University in Germany, Princeton University of New Jersey and Google Quantum AI, for the first time discovered a regular topological mode. To learn more about this achievement, join Digino.
This is actually a non -equitable quantum state of the moon in the system that is driven by the periodic Hamilton. Hamiltioni is a physical system that changes the rules governing over time, but with this change it will be created with a repetitive and predictable cycle. This strange phase has been theoretical for years, but has never been found directly in any tests. According to Munich Technical University, this is a big step forward in the study of quantum matter research.
New phase of matter
The female phases are the basic states that the material can take on, similar to that water can be in the liquid or ice phase. They are defined under balance conditions in which the system is stable over time. However, nature does not always follow the conventional laws. Some substances of matter only appear when systems are out of balance. The team has now proven that quantum computers are specifically suitable for discovering and studying these unusual modes.
Unlike the conventional phases of matter, non -equivalent quantum phases are defined by their dynamic and temporal evolution. At present, the common balance thermodynamics cannot describe this behavior. A very rich type of non -equitable state is found in flockete systems. These are quantum systems that are guided in a regular template. This regular guidance can create new forms of order that are impossible to achieve in equilibrium and reveal phenomena that are beyond the reach of the conventional phases of matter.
Now with the use of Google’s Quantum Chip Chip, the team of scientists has shot the new phase scientists and has developed an interference algorithm to investigate its topological structure. This allowed scientists to witness the dynamic conversion of strange particles that were theoretically predicted for these unusual quantum modes.
Kubits used as laboratory space
The Willow chip was previously informed for its superb computing power. The chip also had a discussion of whether its performance supports multimedia theory. The concept, first introduced by American physicists, Hugh Ort in Year 2, shows that the world is only one of the many worlds that form a larger world together, including everything that exists, such as space, time, matter, energy and data.
Calculating in less than five minutes, probably for one of the fastest clouds of today’s Septish year, last year, Google’s powerful artificial intelligence chip pointed out that parallel worlds are likely to be real. The team of scientists pointed out that these findings are the start of a new season in quantum simulation by converting quantum computers into laboratories to explore in the vast and unknown world of quantum material. These insights can help better understand physics and develop quantum technologies in the future.
Melissa Weil, a doctoral student at the Faculty of Physics of the Munich Faculty of Natural Sciences, Germany and the first author of the study, says that simulation of very intertwined non -transmitted phases with old computers is very difficult. “Our results show that quantum quantum chips are not only computational devices, but they are powerful test platforms for discovering and exploring completely new material states,” he said in a press statement.
Source: Interestingngineering
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