Modeling and Validation of Anisotropic Thin-Film Deposition on Cylindrical Substrates for Predictable Resistance Control in MEMS Fabrication
Aditya Tummala, Francesca Marturano, Giorgio Bonmassar

TL;DR
This paper presents a model to predict and control thin-film resistance during MEMS fabrication on cylindrical substrates, improving reliability and performance.
Contribution
A geometrically explicit model for anisotropic thin-film deposition on cylindrical substrates, validated with both simulations and experiments.
Findings
The model accurately reproduces deposition profiles with R²=0.99 in simulations.
Predicted resistances correlate strongly with measurements (R=0.983, p<0.001).
The model enables predictive control of resistivity in MEMS and bio-MEMS structures.
Abstract
Precise control of electrical properties in conductive micro-structures is essential for the performance and reliability of micro-electro-mechanical systems (MEMS). However, the nature of anisotropic physical vapor deposition (PVD), such as electron-beam or thermal evaporation on curved or wire-like substrates, complicates the prediction of thin-film morphology and resulting electrical properties. This study develops and validates a geometrically explicit deposition model describing film growth on cylindrical substrates using a generalized pseudo-Lambertian cosine emission profile. Analytical expressions for local film thickness are derived as functions of deposition time, substrate geometry, and source collimation. Monte Carlo simulations confirm that the model accurately reproduces the deposition profile observed with simulated data (R2=0.99). A closed-form expression for resistance…
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Taxonomy
TopicsNanomaterials and Printing Technologies · Nanofabrication and Lithography Techniques · Electron and X-Ray Spectroscopy Techniques
