Pulsed second harmonic generation by stacks of magnetically biased semiconductor layers

Author

Shramkova, O.V. ; Schuchinsky, Alexander G.

Author_Institution

Sch. of Electron., Queen´s Univ. Belfast, Belfast, UK

fYear

2013

fDate

6-10 Oct. 2013

Firstpage

1051

Lastpage

1054

Abstract

The pulsed second harmonic generation (SHG) by periodic stacks of nonlinear semiconductor layers with external magnetic bias has been studied in the self-consistent problem formulation, taking into account mobility of carriers. The products of nonlinear scattering in the three-wave mixing process are examined. It is demonstrated that the waveform evolution in magnetoactive weakly nonlinear semiconductor periodic structure illuminated by Gaussian pulse is strongly affected by the magnetic bias and collision frequency of the carriers. The effect of nonreciprocity on the SHG efficiency is discussed and illustrated by the examples.

Keywords

carrier mobility; magnetic semiconductors; multiwave mixing; nonlinear media; optical harmonic generation; optical materials; periodic structures; Gaussian pulse; SHG; carrier mobility; collision frequency; external magnetic bias; magnetically biased semiconductor layers; magnetoactive weakly nonlinear semiconductor periodic structure; nonlinear scattering; nonlinear semiconductor layers; nonreciprocity; pulsed second harmonic generation; self-consistent problem formulation; three-wave mixing; Magnetic confinement; Magnetic multilayers; Magnetic resonance; Magnetic semiconductors; Magnetomechanical effects; Periodic structures; Reflectivity; Gaussian pulse; Nonlinear semiconductor; magnetic bias; nonlinear periodic structure; nonreciprocity; second harmonic generation; three-wave mixing;

fLanguage

English

Publisher

ieee

Conference_Titel

Microwave Conference (EuMC), 2013 European

Conference_Location

Nuremberg

Type

conf

Filename

6686841