Optical Communication and High-Frequency Engineering

Prof. Dr.-Ing. Reinhold Noé

Postal AddressVisitor Address
University of Paderborn,
EIM-E, ONT,
D-33095 Paderborn
University of Paderborn,
EIM-E, ONT,
Warburger Str. 100,
D-33098 Paderborn

How to reach us: Building, building map & roadmap, bus, train, airplane

Nachrichten

Consistent optical and electrical noise figure

The noise figure is the factor by which the signal-to-noise ratio is degraded from input to output of a device. The optimum noise figure of an electrical amplifier is Fe=1 and the optimum traditional noise figure of an optical amplifier is Fpnf=2. This irresolvable conflict is due to the fact that an electrical receiver receives in-phase and quadrature parts of an electric carrier while a direct-detection photoreceiver detects only power but not…

Read more

Essentials of Modern Optical Fiber Communication - 2nd Edition

The 2nd edition of Professor Reinhold Noé's Introduction to Optical Communications Engineering has been published.

Read more
Photos: Prof. Dr Joachim Veit, Prof. Jutta Ströter-Bender, Prof. Dr Reinhold Noé

Three selected best performances of the University of Paderborn promote North Rhine-Westphalia

Read more

University of Paderborn: Optical Communication Now and in the Future - Research for Faster and More Secure Data Transmission

Read more
Fotos: Prof. Dr. Christine Silberhorn und Prof. Dr.-Ing. Reinhold Noé

Am Freitag, 26. Oktober 2012, wird im Rahmen des 40-jährigen Jubiläums die Vortragsreihe der fünf Fakultäten mit dem Titel „Wie werden eigentlich Daten heutzutage übermittelt? Optische Kommunikation jetzt und in der Zukunft“ fortgesetzt. Im Hörsaal L1 (neues Hörsaalgebäude) der Universität Paderborn sprechen Prof. Dr. Christine Silberhorn aus der Fakultät für Naturwissenschaften und Prof. Dr.-Ing. Reinhold Noé aus der Fakultät für…

Read more

All news

Archiv