We summarize simulation and characterization skills that we have developed and that are applicable to different implementations of quantum information technologies. In particular, we present the multiscale simulation of silicon-on-insulator nanostructures, the numerical analysis of sensors based on quantum coherent effects, the development of cryogenic electronics for ultra-low-noise measurements, and their application to the characterization of quantum devices.
Simulation and characterization of quantum devices at DII-UNIPI
Massimo Macucci;Giuseppe Iannaccone;Gianluca Fiori;Paolo Marconcini
2017-01-01
Abstract
We summarize simulation and characterization skills that we have developed and that are applicable to different implementations of quantum information technologies. In particular, we present the multiscale simulation of silicon-on-insulator nanostructures, the numerical analysis of sensors based on quantum coherent effects, the development of cryogenic electronics for ultra-low-noise measurements, and their application to the characterization of quantum devices.File in questo prodotto:
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