![]() We study quantum information transfer and coherent/incoherent quantum transport in quantum networks. ![]() In close contact with experiments, we conceive quantum devices and sensors characterized by enhanced control and flexibility of their operating conditions. We study quantum correlations and entanglement in many-body theory, with specific applications to quantum gases spatially confined in low-dimensional structures, atomtronics, mesoscopic networks, and superconducting circuits. In the Quantum Physics group, we investigate quantum matter for quantum technology. On the other hand, because of the specific operating conditions in which it needs to work, quantum matter designed for quantum technology may display new fundamental and unexpected physical features. On the one hand, interesting quantum devices for applications of practical value in this discipline must be constructed of physical platforms characterized by pronounced quantum effects. For Quantum Technology, the boundary between basic and applied research is particularly blurred. Today, we are in the middle of a second quantum revolution. The 18th century industrial revolution, or more recently, the quantum revolution culminating in the current ‘digital era’ with electronics, computers, internet, laser technologies shows how science and technology can be disrupting. This way, fundamental research and technology, in symbiotic relation, have acted as the primum mobile for epochal changes in human history. At the same time, technological progress allows us to study fundamental aspects of Nature with more and more precision. Fundamental research and technology are intertwined: Basic research provides new fundamental concepts to be harnessed in new devices and technological instruments.
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