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Physical Implementation of a Majorana Fermion Surface Code for Fault-Tolerant Quantum Computation

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abstract

We propose a physical realization of a commuting Hamiltonian of interacting Majorana fermions realizing $Z_{2}$ topological order, using an array of Josephson-coupled topological superconductor islands. The required multi-body interaction Hamiltonian is naturally generated by a combination of charging energy induced quantum phase-slips on the superconducting islands and electron tunneling. Our setup improves on a recent proposal for implementing a Majorana fermion surface code [1], a 'hybrid' approach to fault-tolerant quantum computation that combines (1) the engineering of a stabilizer Hamiltonian with a topologically ordered ground state with (2) projective stabilizer measurements to implement error correction and a universal set of logical gates. Our hybrid strategy has advantages over the traditional surface code architecture in error suppression and single-step stabilizer measurements, and is widely applicable to implementing stabilizer codes for quantum computation.

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2026 1

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UNVERDICTED 1

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20 Second Parity Lifetime in an InAs--Pb Tetron Device

cond-mat.mes-hall · 2026-06-02 · unverdicted · novelty 6.0

InAs-Pb hybrid nanowire tetron achieves ~20 s parity switching time with h/2e-periodic bimodal capacitance shifts, using a new rf technique to resolve wire-end states at μeV precision.

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  • 20 Second Parity Lifetime in an InAs--Pb Tetron Device cond-mat.mes-hall · 2026-06-02 · unverdicted · none · ref 37 · internal anchor

    InAs-Pb hybrid nanowire tetron achieves ~20 s parity switching time with h/2e-periodic bimodal capacitance shifts, using a new rf technique to resolve wire-end states at μeV precision.