All-optical switching schemes enable ultrafast optical information processing via light-by-light control: for example, a temporal soliton may manipulate a dispersive wave (DW) at a different wavelength [1, 2, 3, 4]. Key control parameters may include: the DW power, its temporal width and wavelength, the soliton-DW delay, and the soliton duration, to name a few [5]. Most all-optical switching scheme involve a singlemode fiber; using multimode fibers (MMF) instead introduces new spatial degrees of freedom. Remarkably, MMF enable the generation of multimode solitons (MMS) [6, 7, 8]. So far, all optical interactions between MMS and DWs remain unexplored.
Temporal reflections via intermodal interactions in multimode fibers / Sparapani, A. C.; Sun, Y.; Mangini, F.; Ferraro, M.; Agrawal, G. P.; Wabnitz, S.. - (2025). ( European Quantum Electronics Conference (EQEC 2025) Munich, Germany ).
Temporal reflections via intermodal interactions in multimode fibers
A. C. Sparapani;Y. Sun;F. Mangini;M. Ferraro;G. P. Agrawal;S. Wabnitz
2025
Abstract
All-optical switching schemes enable ultrafast optical information processing via light-by-light control: for example, a temporal soliton may manipulate a dispersive wave (DW) at a different wavelength [1, 2, 3, 4]. Key control parameters may include: the DW power, its temporal width and wavelength, the soliton-DW delay, and the soliton duration, to name a few [5]. Most all-optical switching scheme involve a singlemode fiber; using multimode fibers (MMF) instead introduces new spatial degrees of freedom. Remarkably, MMF enable the generation of multimode solitons (MMS) [6, 7, 8]. So far, all optical interactions between MMS and DWs remain unexplored.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
