Quantum frustration protects the qubit from Ohmic noise and some sub-Ohmic noise but fails against common 1/f noise, causing spontaneous symmetry breaking and decoherence.
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Zeeman field controls competition between superconductivity and disorder in helical edges, with disorder causing logarithmic suppression of density-wave correlations and positive corrections that stabilize superconducting pairs, altering spin conductance scaling.
citing papers explorer
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Quantum Frustration as a Protection Mechanism in Non-Topological Majorana Qubits
Quantum frustration protects the qubit from Ohmic noise and some sub-Ohmic noise but fails against common 1/f noise, causing spontaneous symmetry breaking and decoherence.
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Spin responses of a disordered helical superconducting edge under Zeeman field
Zeeman field controls competition between superconductivity and disorder in helical edges, with disorder causing logarithmic suppression of density-wave correlations and positive corrections that stabilize superconducting pairs, altering spin conductance scaling.