Research
We investigate how to manipulate the properties of quantum systems using time-dependent external perturbations. In systems with continuous spectrum, we evaluate quantities related to the system's transport properties. In systems with a discrete set of states we look for signatures in the spectral response |
we study mechanisms for trapping and manipulation of ultracold atomic ensembles using harmonic perturbations. The figure shows an atomchip, where small structures produce radio-frequency and microwave radiation for atomic manipulation.
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Variational approaches for driven quantum systems
Exploiting the Hubbard-like structure of Harmonically driven systems (as in the figure), we study how adapt tools used for problems in quantum many-body physics (e.g. Neural networks, RG and Tensor Networks, ) to evaluate the time-evolution operator of such system.
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