We propose a quadrupolar exchange-only spin (QUEX) qubit that is highly robust against charge noise and nuclear spin dephasing, the dominant decoherence mechanisms in quantum dots. The qubit consists of four electrons trapped in three quantum dots, and operates in a decoherence-free subspace to mitigate dephasing due to nuclear spins. To reduce sensitivity to charge noise, the qubit can be completely operated at an extended charge noise sweet spot that is first-order insensitive to electrical fluctuations. Due to on-site exchange mediated by the Coulomb interaction, the qubit energy splitting is electrically controllable and can amount to several GHz even in the ``off" configuration, making it compatible with conventional microwave cavities.
@article{arxiv.1807.10471,
title = {A quadrupolar exchange-only spin qubit},
author = {Maximilian Russ and J. R. Petta and Guido Burkard},
journal= {arXiv preprint arXiv:1807.10471},
year = {2018}
}