Speaker
Description
Molecular spins hold potential for quantum information when integrated into planar superconducting microwave resonators [AdvPhysX3,1435305(2018)]. Along this line, we present our recent results on developing protocols (i.e. microwave sequences) for initializing, manipulating and reading out molecular spin ensembles. We first apply a storage/retrieval protocol on an Oxovanadyl (VO(TPP)) sample, showing that it’s possible to use it as a memory for individually-controllable pulses [NPJQuantInf6,68(2020)]. We then demonstrate an advanced transmission spectroscopy on a crystal of Diphenyl-Nitroxide (DPNO) in the dispersive limit of the coupling with the resonator, where no resonant exchange of photons occurs [AdvQuantTech2100039(2021)]. Finally, we shall present our preliminary results on applying a Machine Learning approach in recognising and treating spin echo signals.
