Developing an ion trap quantum processor

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Title
Developing an ion trap quantum processor
CoPED ID
e41338ab-0956-4b24-8553-eb9fd6865b8c
Status
Closed
Funders
EPSRC
EPSRC
Value
No funds listed.
Start Date
Sept. 30, 2017
End Date
Sept. 28, 2021
Description

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Large-scale quantum computers may require in excess of millions of individual quantum bits.
This would require aligning millions of laser beams with micron accuracy. At Sussex we have
developed an alternative approach where quantum gates are executed by the application of
voltages on an ion trap quantum computing microchip replacing laser beams required for
quantum gate implementation. We have already developed the capability to carry out two-qubit
quantum gates with fidelities close to the fault-tolerant threshold and single qubit gates well
below the fault-tolerant threshold. In parallel we are developing shuttling capabilities in order to
reliably transport ions on an ion microchip. Combing shuttling with the realisation of quantum
gates allows for the realisation of quantum algorithms with a few trapped ions.

Winfried Hensinger SUPER_PER
Mitchell Peaks STUDENT_PER

Subjects by relevance
  1. Quantum mechanics
  2. Ions
  3. Quantum computers
  4. Quantum computing
  5. Computers
  6. Lasers
  7. Quantum physics

Extracted key phrases
  1. Ion trap quantum processor
  2. Quantum gate implementation
  3. Scale quantum computer
  4. Individual quantum bit
  5. Quantum algorithm
  6. Ion microchip
  7. Single qubit gate
  8. Laser beam
  9. Tolerant threshold
  10. Shuttling capability
  11. Million
  12. Alternative approach
  13. Micron accuracy
  14. Realisation

Related Pages

UKRI project entry

UK Project Locations