The scientists from UNSW Sydney are behind a discovery made with quantum computing and the old and classic highs school chemistry lessons. The engineers from UNSW can now boast with their development. They have created artificial atoms thanks to the quantum computing. The synthetic particles produced in silicon chips for the stability of the quantum computing. All of the investigations and analyze, the results are available in the Nature Communications journal.
The Creation of the Artificial Atoms
The engineers created the artificial atoms in the silicon quantum dot. The quantum dot is a little space on the quantum circuit. From there, the electrons are doing their part and transforms into qubits for the base units of quantum computing. However, the artificial atoms are not like the real ones. An artificial atom doesn’t have a nucleus, but it has the electrons that are moving around the center.
Why Artificial Atoms?
This idea is not new; it all started in theory back in 1930, when everything was proposed as an idea and a philosophy. After that, in the 1990s, some engineers tried to demonstrate the method, but not the way the UNSW scientists had done. Moving in our times, in 2013, the team headed by Professor Dzurak, created silicon for this purpose. The recent experiment, however, is bringing a new possibility for the calculations in quantum computers. An artificial atom has a higher number of electrons; it is robust and more stable.
In conclusion, with the artificial atoms, the periodic table as we know it from school can make a significant change. The artificial ones are more organized and predictable than the real one. So, the idea of creating these artificial atoms in silicon, it’s for testing the stability of the electrons. Having this silicon introduced to the CMOS technology will reduce the time of solving the problems for the quantum computers.