An Fem Study of Die Attach Packaging Effect on Nanomechanical Si Optical Filters
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Date
2017
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Institute of Electrical and Electronics Engineers Inc.
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Green Open Access
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Abstract
This paper presents a finite element analysis of die attach packaging stress effect on emerging nanomechanical silicon optical filters. The proposed silicon optical filter is composed of Si waveguides and a microring resonator having a few hundred nm in thickness and a few tens of μm in length. Photonic integrated circuit is typically implemented by attaching a new component to a common ceramic interposer with other components. Such an attachment process would be a cause of unwanted performance deviation of MEMS or NEMS devices due to the packaging stress. Therefore, an FEM model has been used to evaluate deflection and stress of NEMS waveguides and microring resonators which are main elements for the proposed optical filter. © 2017 Elsevier B.V., All rights reserved.
Description
CMP; CNRS; et al.; IEEE Components, Packaging and Manufacturing Technology Society (CPMT); IMS-BORDEAUX; LIRMM
Keywords
Die Attach, Fem (Finite Element Method), MEMS, Nems, Packaging, Silicon Optical Filter, Bandpass Filters, Ceramic Materials, Finite Element Method, MEMS, Nems, Optical Filters, Optical Resonators, Packaging, Resonators, Silicon, Waveguides, Attachment Process, Deflection and Stress, Die-Attach, Fem (Finite Element Method), Microring Resonator, Packaging Effects, Packaging Stress, Photonic Integrated Circuits, Waveguide Filters
Fields of Science
0202 electrical engineering, electronic engineering, information engineering, 02 engineering and technology
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Source
-- 19th Symposium on Design, Test, Integration and Packaging of MEMS/MOEMS, DTIP 2017 -- Bordeaux -- 129344
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1
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4
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