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Hybrid Boundary Integral – Finite Element – Ray Optical Methods for High-Frequency Applications

Published/Copyright: August 1, 2009
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Frequenz
From the journal Frequenz Volume 63 Issue 7-8

Published Online: 2009-08-01

©2011 by Walter de Gruyter GmbH & Co.

Articles in the same Issue

  1. Prof. Dr.-Ing. Volkert Hansen on the Occasion of his 65th Birthday
  2. Occupational Exposure at Mobile Communication Base Station Antenna Sites
  3. Hybrid Boundary Integral – Finite Element – Ray Optical Methods for High-Frequency Applications
  4. Spectral Domain Techniques for the Fast and Accurate Solution of Larger Microwave and Thin Layer Structures
  5. Planar Antenna Design Controlled by Simulated Annealing
  6. To Restrain or not to Restrain Animals in RF-EMF Exposure Settings
  7. Ultrasonic Two-Port Measurements for the Reconstruction of Layered Media Properties
  8. Influence of the Geometrical Configuration on the Quality of Millimeter-Wave Images
  9. Application of a New Uniqueness Theorem to Two-dimensional Electromagnetic Problems
  10. A Closed Composite Right-/Left-Handed Transmission Line Based on Substrate Integrated Waveguide Technology
  11. Bioelectromagnetic Field Simulations Using High-Resolution Human Anatomy Models with the Finite Integration Technique
https://doi.org/10.1515/FREQ.2009.63.7-8.129

Articles in the same Issue

  1. Prof. Dr.-Ing. Volkert Hansen on the Occasion of his 65th Birthday
  2. Occupational Exposure at Mobile Communication Base Station Antenna Sites
  3. Hybrid Boundary Integral – Finite Element – Ray Optical Methods for High-Frequency Applications
  4. Spectral Domain Techniques for the Fast and Accurate Solution of Larger Microwave and Thin Layer Structures
  5. Planar Antenna Design Controlled by Simulated Annealing
  6. To Restrain or not to Restrain Animals in RF-EMF Exposure Settings
  7. Ultrasonic Two-Port Measurements for the Reconstruction of Layered Media Properties
  8. Influence of the Geometrical Configuration on the Quality of Millimeter-Wave Images
  9. Application of a New Uniqueness Theorem to Two-dimensional Electromagnetic Problems
  10. A Closed Composite Right-/Left-Handed Transmission Line Based on Substrate Integrated Waveguide Technology
  11. Bioelectromagnetic Field Simulations Using High-Resolution Human Anatomy Models with the Finite Integration Technique
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