We aim to prove the functionalities of nonlinearities for device applications. In particular, we target at the analysis and quantification of nonlinear processes and concepts for applications in quantum optics. We want to show the scientific advancement of photonic quantum technology and finally, we would like to expedite the realization of the first demonstrator for integrated quantum systems.
Project | Title | Principal investigator(s) |
| C07 | Cavity-enhanced spontaneous parametric down-conversion with temporal filtering unsing integrated superconducting detectors | Prof. Dr. Tim Bartley, Dept. of Physics, UPB
Prof. Dr. Christine Silberhorn, Dept. of Physics, UPB |
| C08 | Hybrid lithium niobate on insulator quantum photonic integrated circuit | Prof. Dr. Klaus Jöns, Dept. of Physics, UPB
Prof. Dr. Dirk Reuter, Dept. of Physics, UPB
Prof. Dr. Christine Silberhorn, Dep. of Physics, UPB |
| C09 | On-demand ideal photon pair generation for entanglement swapping at telecom frequencies | Prof. Dr. Klaus Jöns, Dept. of Phtysics, UPB
Prof. Dr. Dirk Reuter, Dept. of Physics, UPB
Prof. Dr. Stefan Schumacher, Dept. of Physics, UPB |
| C10 | Generation and characterization of quantum light in non-linear system: A theoretical analysis | Jun.-Prof. Dr. Polina Sharapova, Dept. of Physics, UPB
Prof. Dr. Jan Sperling, Dept. of Physics, UPB |
| C11 | Compact high performance phoon pair source using unltrafast hybrif modulators based on CMOS and LNOI | Prof. Dr. Christine Silberhorn, Dept. of Physics, UPB
Prof. Dr.-Ing. J. Christoph Scheytt, Dept. of Electrical Engineering, UPB |
