Manuscript of the thesis
Abstract:
This PhD thesis explores a hybrid semiconductor-superconductor circuit named the FerBo qubit. By replacing the conventional Josephson tunnel junction of a fluxonium with a mesoscopic weak link hosting Andreev bound states, the circuit couples a fermionic degree of freedom to a bosonic electromagnetic mode. This architecture enables a parity-based protection mechanism at zero external flux: the qubit states share the same parity under phase inversion, strongly suppressing the matrix elements of charge and phase operators. Combined with a high-impedance environment provided by the bosonic mode, this offers simultaneous protection against both relaxation and dephasing.
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