Dynamical decoupling sequences are a convenient tool to reduce decoherence due to intrinsic fluctuations with 1/ f power spectrum hindering quantum circuits. We study the possibility to achieve an efficient universal two-qubit gate in the presence of 1/ f noise by periodic and Carr-Purcell dynamical decoupling. The high degree of selectivity achieved by these protocols also provides a valuable tool to infer noise characteristics, as the high-frequency cut off and the noise variance. Different scalings of the gate error with noise variance signal the contribution of different noise statistical properties to the gate error.
Quantum Sensing 1/f Noise via Pulsed Control of a Two-Qubit Gate
Antonio D'Arrigo;Giuseppe Falci;Elisabetta Paladino
2019-01-01
Abstract
Dynamical decoupling sequences are a convenient tool to reduce decoherence due to intrinsic fluctuations with 1/ f power spectrum hindering quantum circuits. We study the possibility to achieve an efficient universal two-qubit gate in the presence of 1/ f noise by periodic and Carr-Purcell dynamical decoupling. The high degree of selectivity achieved by these protocols also provides a valuable tool to infer noise characteristics, as the high-frequency cut off and the noise variance. Different scalings of the gate error with noise variance signal the contribution of different noise statistical properties to the gate error.| File | Dimensione | Formato | |
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