The performances of a digital optical switch, based on the thermo-optic effect in amorphous silicon, are investigated for the first time to our knowledge. Numerical simulations show that the strong thermo-optic effect of amorphous silicon, combiend with the possibiltiy of realizing micrometric integrated structures, allows the realization of efficient waveguide devices capable of microsecond switching times. The switch, operating at the IR communications wavelength of 1550 nm, can be easily integrated in silicon optoelectronic circuits and is thought for low-cost photonic applications.
Digital optical switch based on amorphous silicon waveguide
Sirleto L;Iodice M;Della Corte FG;Rendina I
2003
Abstract
The performances of a digital optical switch, based on the thermo-optic effect in amorphous silicon, are investigated for the first time to our knowledge. Numerical simulations show that the strong thermo-optic effect of amorphous silicon, combiend with the possibiltiy of realizing micrometric integrated structures, allows the realization of efficient waveguide devices capable of microsecond switching times. The switch, operating at the IR communications wavelength of 1550 nm, can be easily integrated in silicon optoelectronic circuits and is thought for low-cost photonic applications.File in questo prodotto:
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