Peter Leek

Multilayer Coaxial Superconducting Circuits with Integrated 3D Wiring

Optica Publishing Group (2019) f3b.1

Towards single-shot readout in double-sided coaxial circuit-QED

Optica Publishing Group (2019) f5a.15

Authors:

M Esposito, J Rahamim, A Patterson, J Wills, G Campanaro, T Tsunoda, P Spring, M Mergenthaler, S Sosnina, Salha Jebari, K Ratter, G Tancredi, B Vlastakis, P Leek

Circuit quantum acoustodynamics with surface acoustic waves

Nature Communications Springer Nature 8 (2017) 975

Authors:

Riccardo Manenti, AF Kockum, Andrew Patterson, Tanja Behrle, Joseph Rahamim, Giovanna Tancredi, F Nori, Peter Leek

Abstract:

The experimental investigation of quantum devices incorporating mechanical resonators has opened up new frontiers in the study of quantum mechanics at a macroscopic level. It has recently been shown that surface acoustic waves (SAWs) can be piezoelectrically coupled to superconducting qubits, and confined in high-quality Fabry-Perot cavities in the quantum regime. Here we present measurements of a device in which a superconducting qubit is coupled to a SAW cavity, realising a surface acoustic version of cavity quantum electrodynamics. We use measurements of the AC Stark shift between the two systems to determine the coupling strength, which is in agreement with a theoretical model. This quantum acoustodynamics architecture may be used to develop new quantum acoustic devices in which quantum information is stored in trapped on-chip acoustic wavepackets, and manipulated in ways that are impossible with purely electromagnetic signals, due to the 105 times slower mechanical waves.In this work, Manenti et al. present measurements of a device in which a tuneable transmon qubit is piezoelectrically coupled to a surface acoustic wave cavity, realising circuit quantum acoustodynamic architecture. This may be used to develop new quantum acoustic devices.

Strong coupling of microwave photons to antiferromagnetic fluctuations in an organic magnet

Physical Review Letters American Physical Society 119:14 (2017) 147701

Authors:

Matthias Mergenthaler, Junjie Liu, Jennifer Le Roy, Natalia Ares, Amber Thompson, Lapo Bogani, F Luis, Stephen Blundell, T Lancaster, Arzhang Ardavan, G Andrew D Briggs, Peter J Leek, Edward Laird

Abstract:

Coupling between a crystal of di(phenyl)-(2,4,6-trinitrophenyl)iminoazanium (DPPH) radicals and a superconducting microwave resonator is investigated in a circuit quantum electrodynamics (cQED) architecture. The crystal exhibits paramagnetic behavior above 4 K, with antiferromagnetic correlations appearing below this temperature, and we demonstrate strong coupling at base temperature. The magnetic resonance acquires a field angle dependence as the crystal is cooled down, indicating anisotropy of the exchange interactions. These results show that multi-spin modes in organic crystals are suitable for cQED, offering a platform for their coherent manipulation. They also utilize the cQED architecture as a way to probe spin correlations at low temperature.

Double-sided coaxial circuit QED with out-of-plane wiring

APPLIED PHYSICS LETTERS 110:22 (2017) ARTN 222602

Authors:

J Rahamim, T Behrle, MJ Peterer, A Patterson, PA Spring, T Tsunoda, R Manenti, G Tancredi, PJ Leek