We theoretically investigate hyperfine-induced decoherence in a triangular spin cluster for different qubit encodings. Electrically controllable eigenstates of spin chirality (Cz) show no appreciable decoherence up to 102 ?s, while a complete decoherence is estimated for the eigenstates of the total-spin projection (Sz) and of the partial spin sum (S12) after 10 ?s. The robustness of chirality is due to its decoupling from both the total- and individual-spin components in the cluster. This results in a suppression of the effective interaction between Cz and the nuclear-spin bath. We finally estimate the reduction of the decoherence time scale for Cz, resulting from possible hyperfine contact terms or from the misalignment of the magnetic field.
Hyperfine-induced decoherence in triangular spin-cluster qubits
Troiani F;
2012
Abstract
We theoretically investigate hyperfine-induced decoherence in a triangular spin cluster for different qubit encodings. Electrically controllable eigenstates of spin chirality (Cz) show no appreciable decoherence up to 102 ?s, while a complete decoherence is estimated for the eigenstates of the total-spin projection (Sz) and of the partial spin sum (S12) after 10 ?s. The robustness of chirality is due to its decoupling from both the total- and individual-spin components in the cluster. This results in a suppression of the effective interaction between Cz and the nuclear-spin bath. We finally estimate the reduction of the decoherence time scale for Cz, resulting from possible hyperfine contact terms or from the misalignment of the magnetic field.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
