Conveners
Session II: Successful cases within INFN
- Valter Bonvicini (TS)
Qu3D aims at designing and implementing quantum plenoptic cameras: radically novel 3D imaging devices exploiting both momentum-position entanglement and photon-number correlations to enable the typical refocusing and ultra-fast, scanning-free, 3D imaging capabilities of plenoptic devices, but with dramatically enhanced performances.
Qu3D merges scientific research and engineering for...
High-dimensional photonic quantum information promises considerable advantages compared to the two-dimensional qubit paradigm, from increased quantum communication rates to increased robustness for entanglement distribution. The QuICHE project aims to unlock the potential of high-dimensional quantum technology by encoding information in the spectral-temporal degrees of freedom of light. In...
Photon-Atom Cooperative Effects at Interfaces
Functional devices for quantum information processing and communication must make use of appropriate matter-light interfaces. Their key role in bringing quantum devices towards practical applications is essential. Hence, building the conceptual and technological base for such interfaces will pave the way for the scalable quantum computation...
The goal of the project QuantHEP (Quantum Computing Solutions for High-Energy Physics) is to investigate the potential of quantum computation for particle-physics challenges, as a solution to the formidable problem of analysing and simulating events from experiments of high-energy particles. To deal with such challenges a multidisciplinary approach is essential, spanning from quantum analog...
One popular way to realize quantum communication protocols is through energy-time entanglement (and its synchronized version, called time-bin), since it is robust to environmental disturbances during optical fiber propagation. However, most experiments based on this type of entanglement have an inherent flaw, called the post-selection loophole, which compromises security unless extra...
