Dynamical suppression of fluctuations in an interacting nuclear spin bath of a self-assembled quantum dot using multiple pulse nuclear magnetic resonance

Abstract

Electron spin qubit coherence in quantum dots is ultimately limited by random nuclear spin bath fluctuations. Here we aim to eliminate this randomness by making spin bath evolution deterministic. We introduce spin bath control sequences, which systematically combine Hahn and solid echoes to suppress inhomogeneous broadening and nuclear-nuclear interactions. Experiments on self-assembled quantum dots show a five-fold increase in nuclear spin coherence. Numerical simulations show that these sequences can be used to suppress decoherence via qubit-qubit interaction in point defect and dopant spin systems.