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Paper 1

Intrinsic Quantum Codes: One Code To Rule Them All

Eric Kubischta, Ian Teixeira

Year: 2025
Journal: arXiv preprint
DOI: arXiv:2511.14840
arXiv: 2511.14840

Drawing on the analogy between intrinsic and extrinsic geometry, we define an intrinsic quantum code as a subspace of a group representation. We show how this abstract code rules over any physical (extrinsic) realization by dictating its error-correction properties. By finding one intrinsic code, we simultaneously uncover properties of all its realizations. This approach brings diverse codes into a unified framework and binds them through a single underlying symmetry.

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Paper 2

Bounds on Atomistic Disorder for Scalable Electron Shuttling

Raphaël J. Prentki, Pericles Philippopoulos, Mohammad Reza Mostaan, Félix Beaudoin

Year: 2025
Journal: arXiv preprint
DOI: arXiv:2510.03113
arXiv: 2510.03113

Electron shuttling is emerging as a key enabler of scalable silicon spin-qubit quantum computing, but fidelities are limited by atomistic disorder. We introduce a multiscale simulation framework combining time-dependent finite-element electrostatics and atomistic tight-binding to capture the impact of random alloying and interface roughness on the valley splitting and phase of shuttled electrons. We find that shuttling fidelities are strongly suppressed by interface roughness, with a sharp anomaly near the atomic-layer scale, setting quantitative guidelines to realize scalable shuttling.

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