1. A methodology for the SPICE-Compatible modelling of metal-semiconductor-metal photodetectors for nanophotonic interconnects application.
- Author
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Qodratnama, Arash, Khunjush, Farshad, and Raji, Mohsen
- Subjects
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PHOTODETECTORS , *OPTOELECTRONIC devices , *CINNAMON , *INTEGRATED circuits , *FINITE difference time domain method - Abstract
On-chip global nanophotonic interconnects are promising alternatives to traditional metallic interconnects in giga-scale integrated circuits. At the very first step, the design and optimization of nanophotonic interconnects require the modelling and characterization of optoelectronic devices with irregular 3D geometries. In this paper, a methodology for the SPICE-compatible modelling of such devices is proposed which does not rely on post-manufacturing data. This methodology couples the optics and electronics domains of such devices in order to improve the model accuracy. The proposed methodology has been applied to the modelling of a waveguide-coupled integrated Metal-Semiconductor-Metal PhotoDetector (MSM PD) with quadratic nanotapers. We have performed optics domain simulation in 3D field-solver MEEP and device simulations using Silvaco Atlas device-TCAD tool. The simulation results agree well with measurement data reported in literature. Agreement with less than 12% error at all bias voltages is observed. • This article presents a methodology that characterizes an optoelectronic device without relying on measurement data. • The presented methodology improves the modelling accuracy of metal-semiconductor-metal photodetectors. • The methodology does not rely on post-manufacturing data to make design space exploration possible prior to manufacturing. • The presented methodology couples the optics and electronics domains of functionality of the device. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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