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Iranian grad student Kamyar Saeedi, together with Professor Mike Thewalt of Simon Fraser University (SFU), Canada, have taken a fresh step in advancing quantum computers through the distinctive properties of highly enriched and purified silicon.
Quantum computers are mainly considered as futuristic machines as they currently exist in physicists concepts and theoretical studies. The computers will be able to function much faster than todays fastest super computers.
Quantum computers could connect the powers of atoms and sub-atomic particles (ions, photons, electrons) to carry out processing tasks, due to their extraordinary sub-atomic properties.
Saeedi, the Iranian PhD candidate at the SFU in Canada, has been on the quantum computers designing team led by physicist Thewalt. The team has found that their unique silicon allows processes to occur and be monitored in a solid state that researchers formerly thought needed a near-perfect vacuum.
Thewalt regarded the achievement a record in solid-state systems, which appeared to be impossible a few years ago.
It opens new ways of using solid-state semi-conductors such as silicon as a base for quantum computing, Thewalt said.
You can start to do things that people thought you could only do in a vacuum. What we have found, and what wasnt anticipated, are the sharp spectral lines (optical qualities) in the 28Silicon we have been testing. Its so pure, and so perfect. Theres no other material like it, he added.
PressTV - Iranian student helps advance quantum computers
Quantum computers are mainly considered as futuristic machines as they currently exist in physicists concepts and theoretical studies. The computers will be able to function much faster than todays fastest super computers.
Quantum computers could connect the powers of atoms and sub-atomic particles (ions, photons, electrons) to carry out processing tasks, due to their extraordinary sub-atomic properties.
Saeedi, the Iranian PhD candidate at the SFU in Canada, has been on the quantum computers designing team led by physicist Thewalt. The team has found that their unique silicon allows processes to occur and be monitored in a solid state that researchers formerly thought needed a near-perfect vacuum.
Thewalt regarded the achievement a record in solid-state systems, which appeared to be impossible a few years ago.
It opens new ways of using solid-state semi-conductors such as silicon as a base for quantum computing, Thewalt said.
You can start to do things that people thought you could only do in a vacuum. What we have found, and what wasnt anticipated, are the sharp spectral lines (optical qualities) in the 28Silicon we have been testing. Its so pure, and so perfect. Theres no other material like it, he added.
PressTV - Iranian student helps advance quantum computers
