Abstract
Thermally tunable SiN waveguide microring resonators in connection with neural
network readout algorithms appear promising for use as integrated optical wavelength meters. So far, we have observed long-term reliability and a temperature immunity of the readout across several degrees of ambient temperature change [1]. However, further exploration is required for a better
understanding of such immunity, and the free spectral range should be increased. With the goal to interpret future experimental data across a larger temperature range and a wider free spectral range we have modelled the influence of thermal offset heating and the transmission properties of coupled microring resonators.
network readout algorithms appear promising for use as integrated optical wavelength meters. So far, we have observed long-term reliability and a temperature immunity of the readout across several degrees of ambient temperature change [1]. However, further exploration is required for a better
understanding of such immunity, and the free spectral range should be increased. With the goal to interpret future experimental data across a larger temperature range and a wider free spectral range we have modelled the influence of thermal offset heating and the transmission properties of coupled microring resonators.
Original language | English |
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Publication status | Published - 10 Oct 2017 |
Event | 41st Annual Meeting NNV AMO Lunteren 2017 - Lunteren, Netherlands Duration: 10 Oct 2017 → 11 Oct 2017 Conference number: 41 http://www.ru.nl/amolunteren/ |
Conference
Conference | 41st Annual Meeting NNV AMO Lunteren 2017 |
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Country/Territory | Netherlands |
City | Lunteren |
Period | 10/10/17 → 11/10/17 |
Internet address |