Title :
Derivation of the mode division multiplexed information transmission principles based on the spinor representation of Maxwell´s equations
Author :
Bagmanov, Valeriy Kh ; Sultanov, Albert Kh
Author_Institution :
Dept. of Telecommun. Syst., Ufa State Aviation Tech. Univ., Ufa, Russia
Abstract :
In this paper we introduce a novel approach for analysis of the information transmission process in mode-division-multiplexed (MDM) optical fiber communications. This approach is based on the representation of Maxwell´s equations in the form of quantum-mechanical Schrödinger and Dirac equations. This representation allows application of the well-developed quantum electrodynamics formalism for the case of classical EM fields and reveals key properties of the optical fiber mode distribution in MDM systems following from the total angular momentum conservation law. We demonstrate the need of using coupled mode compositions instead of separate eigenmodes for realization of MDM communications based on angular momentum transfer. Such coupled modal compositions obey the law of total angular momentum conservation within spatial transformation and allow information transmission.
Keywords :
Dirac equation; Maxwell equations; Schrodinger equation; angular momentum; optical fibre communication; quantum electrodynamics; wavelength division multiplexing; Dirac equations; Maxwell equations; coupled mode compositions; modal compositions; mode division multiplexed information transmission principles; optical fiber communications; quantum electrodynamics; quantum-mechanical Schrodinger equations; spatial transformation; spinor representation; total angular momentum conservation law; Information processing; Mathematical model; Maxwell equations; Multiplexing; Optical fiber communication; Optical fibers; Dirac equation; Schrödinger equation; angular momentum; mode division multiplexing; optical fiber modes;
Conference_Titel :
Control and Communications (SIBCON), 2015 International Siberian Conference on
Conference_Location :
Omsk
Print_ISBN :
978-1-4799-7102-2
DOI :
10.1109/SIBCON.2015.7146988
