Quantum Bus for a Quantum Computer Based on Spins in Silicon

  • Tan, Kuan (Principal investigator)
  • Suominen, Heikki (Project Member)
  • Tuohino, Sasu (Project Member)
  • Gunyho, Andras (Project Member)
  • Kivijärvi, Heidi (Project Member)
  • Duda, Rostislav (Project Member)

Project Details


Issues related to scalability remain the last Achille's heel in realizing a solid-state quantum computer. The problem lies in the difficulty in making individual quantum bits, or qubits, communicate with one another over distances required for quantum computation. We develop a novel silicon-based quantum information bus that not only mitigates this issue but also greatly alleviates spatial constraints of the qubit placement on chip. In addition, the device allows the study of non-classical electron transport that has been theoretically predicted but never been observed. This represents a beakthrough that will enable high-fidelity transfer of quantum information encoded in electron spins, opening doors for novel applications in quantum electronics. This project will ultimately lead to quantum supercomputers that will drive the next quantum revolution, fundamentally impacting the fields of computing, security, telecommunications, medicine, materials, and artificial intelligence.
Effective start/end date01/09/202031/08/2022


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