Schnabel, R.R.SchnabelLudwig, R.R.LudwigPieper, W.W.PieperDiez, S.S.DiezWeber, H.G.H.G.Weber2022-03-032022-03-031996https://publica.fraunhofer.de/handle/publica/18951010.1098/rsta.1996.00272-s2.0-3042964172Optical fibres exhibit a bandwidth of about 50 THz, which enables data transmission in excess of 100 Gbit s-1. This potential for ultrafast optical signal transmission stimulates the research on appropriate functional devices for optical switching and optical signal processing in general. A promising device is the semiconductor laser amplifier (SLA). It enables optical signal processing in the femtosecond range when it is operated under conditions where intraband dynamics with subpicosecond time constants are dominating. A suitable experimental technique for operating the SLA under these conditions is four-wave mixing. Based on this technique, various applications for optical signal processing have been investigated, such as optical switches, demultiplexers, wavelength converters and phase conjugators. In this article we describe these experiments and discuss the advantages and disadvantages of optical signal processing using SLAs.enhigh-speed optical techniquesmultiplexingmultiwave mixingoptical communication equipmentoptical frequency conversionoptical phase conjugationoptical switchesultrafast optical signal processingsemiconductor laser amplifiersdata transmissionultrafast optical signal transmissionfunctional devicesoptical switchingoptical signal processingsemiconductor laser amplifierfemtosecond rangeintraband dynamicssubpicosecond time constantsfour-wave mixingdemultiplexerswavelength convertersphase conjugators50 THz100 Gbit/s621530Ultrafast optical signal processing using semiconductor laser amplifiersjournal article