Crystallographic symmetry fixes strain interactions in Lambda manifolds to enable phononic holonomic gates with 0.47% erasure and 0.168% residual Z error, yielding 64% data-qubit reduction in XZZX simulations.
Fault-tolerant quantum architectures based on erasure qubits
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Crystallographic Symmetry Generates Phononic Holonomic Gates with Biased-Erasure Channels
Crystallographic symmetry fixes strain interactions in Lambda manifolds to enable phononic holonomic gates with 0.47% erasure and 0.168% residual Z error, yielding 64% data-qubit reduction in XZZX simulations.