Scaling of Dynamical Decoupling for Spin Qubits

Abstract

We investigate scaling of coherence time, T2, with the number of π-pulses, nπ, in a singlet- triplet spin qubit using Carr-Purcell-Meiboom-Gill (CPMG) and concatenated dynamical decoupling (CDD) pulse sequences. For an even numbers of CPMG pulses, we find a power law, T2 = (nπ)(γe), with γe = 0.720.01, essentially independent of the envelope function used to extract T2. From this surprisingly robust value, a power-law model of the noise spectrum of the environment, S(ω) ~ ω(-β), yields β = γe/(1 - γe) = 2.6 0.1. Model values for T2(nπ) using β = 2.6 for CPMG with both even and odd nπ up to 32 and CDD orders 3 through 6 compare very well with experiment.