Mechanical Coupling to Nuclear Spins
Our research focusses on the interactions between mechanical strain and donor nuclei.
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Mechanical strain is a fundamental effect that can enhance the performance of electronic and quantum devices, such as transistors [] and quantum wells []. High-spin nuclei, such as the spin-7/2 123Sb, contain a quadrupole moment that enables both electrical (nuclear electric resonance or NER) and mechanical [] (nuclear acoustic resonance or NAR) control of spin state transitions.Â
Our group demonstrated NER of an 123Sb donor in a silicon-based quantum device [], which led to simulation of a piezoelectric quantum device capable of achieving NAR of an 123Sb donor []. The AlN-based piezoelectric actuator produces an oscillating strain in the donor-implanted silicon device that mechanically drives 123Sb nuclear spin state transitions. We plan to extend these experiments to large mechanical resonators capable of strong spin-phonon coupling, with the aim of investigating the quantum nature of gravity.
- Publications
- Team
- Collaborators
O’Neill, L. A., Joecker, B., Baczewski, A. D. and Morello, A., .
at University of Jyväskylä, at University of Copenhagen,  at University of Melbourne, Fay Hudson at ÁñÁ«¹ÙÍø Sydney, Andrew Dzurak at ÁñÁ«¹ÙÍø Sydney,  at Keio University.