Reciprocity In COherent lighT Transport phenomenA – RICOTTA

Multimode optical fibers are the subject of very active research in view of the technological advances expected in the fields of telecommunications and imaging. However, mode dispersion and coupling pose practical implementation problems. RICOTTA is a fundamental project inspired by this issue, which aims to study light scattering in multimode optical fibers with controlled disorder. Scatterers will be photo-inscribed into the fibers using a local direct laser writing device, and the coherent wave transport properties will be measured through the disordered fiber transmission matrix. From the mesoscopic transport literature, it is known that the conductivity of these disordered quasi-1D wires is affected by weak localization, a reciprocity-induced phenomenon. In RICOTTA, we plan to break reciprocity by placing the samples in a magnetic field to induce Faraday effect. This will provide new insights into the transport properties, in addition to the results obtained by measuring other properties such as sample length, number of modes, or disorder intensity. The samples will be characterized by measuring the complete transmission matrix, paving the way for coherent wave control in such systems.