Optical modulators using semiconductor nano-structures: Difference between revisions

 

 

 

Acousto-optic modulators are used to vary and control laser beam intensity. A Bragg configuration gives a single first order output beam, whose intensity is directly linked to the power of RF control signal. The rise time of the modulator is simply deduced by the necessary time for the acoustic wave to travel through the laser beam. For highest speeds the laser beam will be focused down, forming a beam waist as it passes through the modulator.

 

 

 

A dc magnetic field Hdc is applied perpendicular to the light propagation direction to produce a single ___domain, transverse directed 4~Ms. The rf modulation field Hrf, applied by means of a coil along the light propagation direction, wobbles 4~Ms through an angle of @ and produces a time varying magnetization component in the longitudinal direction. This component then produces an ac variation in the plane of polarization via the longitudinal Faraday effect. Conversion to [[amplitude modulation]] is accomplished by the indicated analyzer.

 

 

 

Micrometre-scale silicon electro-optic modulator<ref>Nature 435, 325-327 (19 May 2005)</ref>

 

 

Acoustic solitons in semiconductor nanostructures<ref>Journal of Physics: Conference Series 92 (PHONONS 2007)</ref>

 

 

Wideband magneto-optic modulation in a bismuth-substituted yttrium iron garnet waveguide<ref>Optics Communications Volume 220, Issues 4-6</ref>

 

 

 

MODULATION OF THz RADIATION BY SEMICONDUCTOR NANOSTRUCTURES<ref>MICROWAVE AND OPTICAL TECHNOLOGY LETTERS / Vol. 35, No. 5, December 5 2002</ref>