光子集成电路
串扰
光子学
电子工程
电子线路
集成光学
集成电路
补偿(心理学)
计算机科学
光开关
电气工程
材料科学
工程类
光电子学
精神分析
心理学
作者
Isidora Teofilović,Ali Cem,David Sánchez-Jácome,Daniel Pérez,Francesco Da Ros
标识
DOI:10.1109/jlt.2024.3430504
摘要
Photonic integrated circuits play an important role in the field of optical computing, promising faster and more energy-efficient operations compared to their digital counterparts. This advantage stems from the inherent suitability of optical signals to carry out matrix multiplication. However, even deterministic phenomena such as thermal crosstalk make precise programming of photonic chips a challenging task. Here, we train and experimentally evaluate three models incorporating varying degrees of physics intuition to predict the effect of thermal crosstalk in different locations of an integrated programmable photonic mesh. We quantify the effect of thermal crosstalk by the resonance wavelength shift in the power spectrum of a microring resonator implemented in the chip, achieving modelling errors $< $0.5 pm. We experimentally validate the models through compensation of the crosstalk-induced wavelength shift. Finally, we evaluate the generalization capabilities of one of the models by employing it to predict and compensate for the effect of thermal crosstalk for parts of the chip it was not trained on, revealing root-mean-square-errors of $< $2.0 pm.
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