Majorana Pair based Qubits for Fault Tolerant Quantum Computing Architecture using Superconducting Gold Surface States

Under certain conditions, a fermion in a superconductor can separate in space into two parts known as Majorana zero modes, which are immune to decoherence from local noise sources and are attractive building blocks for quantum computers. Here we disclose a metal-based heterostructure platform to produce these Majorana zero modes which utilizes the surface states of certain metals in combination with a ferromagnetic insulator and a superconductor. This platform has the advantage of having a robust energy scale and the possibility of realizing complex circuit designs using lithographic methods. The Majorana zero modes are interrogated using planar tunnel junctions and electrostatic gates to selectively tunnel into designated pairs of Majorana zero modes. We give example of qubit designs and circuits that are particularly suitable for the metal-based heterostructures.

Researchers

Peng Wei / Sujit Manna / Jagadeesh Moodera / Patrick Lee

Departments: Department of Physics
Technology Areas: Chemicals & Materials: Nanotechnology & Nanomaterials / Computer Science: Quantum Computing
Impact Areas: Advanced Materials

  • majorana pair based qubits for fault tolerant quantum computing architecture using superconducting gold surface states
    United States of America | Granted | 11,100,419
  • majorana pair based qubits for fault tolerant quantum computing architecture using superconducting gold surface states
    Patent Cooperation Treaty | Published application

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