Commercial CAD tools for carrier transport simulation in optoelectronic devices are commonly based on the drift-diffusion (DD) model. In the design of silicon photonics optical interconnects, the DD approach can be acceptable for p-i-n photodetectors, but may be inadequate for avalanche photodiodes (APDs). Here we discuss the DD limitations in the case of waveguide Ge-on-Si SACM APDs, and we investigate the advantages and shortcomings of higher-order descriptions, with particular attention to the energy balance model.
Energy balance modeling of Ge-on-Si waveguide avalanche photodetectors
Alberto Tibaldi;Francesco Bertazzi;Michele Goano
2017
Abstract
Commercial CAD tools for carrier transport simulation in optoelectronic devices are commonly based on the drift-diffusion (DD) model. In the design of silicon photonics optical interconnects, the DD approach can be acceptable for p-i-n photodetectors, but may be inadequate for avalanche photodiodes (APDs). Here we discuss the DD limitations in the case of waveguide Ge-on-Si SACM APDs, and we investigate the advantages and shortcomings of higher-order descriptions, with particular attention to the energy balance model.File in questo prodotto:
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