The evaluation and comparison of the optical properties in the O and C bands of silicon nitride rib waveguides with integrated Ge2Sb2Te5 phase-change cells is reported. In straight rib waveguides, a high transmission contrast is observed in both bands when the Ge2Sb2Te5 cell is switched between states, being up to 2.5 dB/μm in the C-band and 6.4 dB/μm in the O-band. In the case of silicon nitride ring resonator waveguides, high quality factor resonances (Q~ 105) are found in both bands, leading to the provision of an ON-OFF switch characterized by an extinction ratio of 12 and 18 dB in O and C bands respectively. Finally, with the view to provide a comparison of the wavelength-dependent optical switching of the phase-change cell, a 3-dimensional finite-element method simulation is performed and a comparison of the optical-to-thermal energy conversion in both bands given.
Performance characteristics of phase-change integrated silicon nitride photonic devices in the O and C telecommunications bands / Faneca, J.; Carrillo, S. G. -C.; Gemo, E.; De Galarreta, C. R.; Bucio, T. D.; Gardes, F. Y.; Bhaskaran, H.; Pernice, W. H. P.; Wright, C. D.; Baldycheva, A.. - In: OPTICAL MATERIALS EXPRESS. - ISSN 2159-3930. - ELETTRONICO. - 10:8(2020), pp. 1778-1791. [10.1364/OME.10.001778]
Performance characteristics of phase-change integrated silicon nitride photonic devices in the O and C telecommunications bands
Gemo E.;
2020
Abstract
The evaluation and comparison of the optical properties in the O and C bands of silicon nitride rib waveguides with integrated Ge2Sb2Te5 phase-change cells is reported. In straight rib waveguides, a high transmission contrast is observed in both bands when the Ge2Sb2Te5 cell is switched between states, being up to 2.5 dB/μm in the C-band and 6.4 dB/μm in the O-band. In the case of silicon nitride ring resonator waveguides, high quality factor resonances (Q~ 105) are found in both bands, leading to the provision of an ON-OFF switch characterized by an extinction ratio of 12 and 18 dB in O and C bands respectively. Finally, with the view to provide a comparison of the wavelength-dependent optical switching of the phase-change cell, a 3-dimensional finite-element method simulation is performed and a comparison of the optical-to-thermal energy conversion in both bands given.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2989979