A New Full-Wave Hybrid Differential-Integral Approach for the Investigation of Multilayer Structures Including Nonuniformly Doped Diffusions

Sidina Wane; Damienne Bajon; Henri Baudrand; Patrice Gamand

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A New Full-Wave Hybrid Differential-Integral Approach for the Investigation of Multilayer Structures Including Nonuniformly Doped Diffusions

机译：研究包括非均匀掺杂扩散在内的多层结构的全波混合微分积分新方法

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摘要

A novel hybrid differential-integral approach, based on the transverse wave formulation (TWF) is presented for fullwave investigation of multilayer structures including inhomogeneous layer stacks with arbitrary doping profiles. In combining both the benefits of spatial and spectral resolutions, the TWF offers a natural framework for the implementation of multiresolution and multiscale approaches from physical considerations. The possibility of separating the transverse TE and TM components of the TWF solution is discussed. Original isolation structures based on the oxide deep-trenches technique are proposed and demonstrate significant isolation capability in the context of RF integrated-circuit applications.

机译：提出了一种基于横向波公式（TWF）的新型混合微分积分方法，用于全波研究多层结构，包括具有任意掺杂分布的不均匀层堆叠。 TWF结合了空间分辨率和光谱分辨率的优点，为从物理角度考虑实现多分辨率和多尺度方法提供了自然的框架。讨论了分离TWF解决方案的横向TE和TM分量的可能性。提出了基于氧化物深沟槽技术的原始隔离结构，并证明了在射频集成电路应用中的显着隔离能力。

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来源
《IEEE Transactions on Microwave Theory and Techniques》 |2005年第1期|p.200-214|共15页
作者
Sidina Wane; Damienne Bajon; Henri Baudrand; Patrice Gamand;
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作者单位

Ecole Nationale Superieure de l'Electronique, l'Electrotechnique, d'Informatique, d'Hydraulique et des Telecommunications, Toulouse, 31071 Toulouse, France;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
关键词
Deep trench (DT); inhomogeneous layer stacks; multiscale (MS)-multiresolution (MR); transverse wave formulation (TWF);

机译：深沟槽（DT）;不均匀的叠层;多尺度（MS）-多分辨率（MR）;横波公式（TWF）;

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4. A new full-wave hybrid differential-integral approach for the investigation of multilayer structures including nonuniformly doped diffusions [C] . Wane, S., Bajon, . 2004

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A New Full-Wave Hybrid Differential-Integral Approach for the Investigation of Multilayer Structures Including Nonuniformly Doped Diffusions

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