Difference between revisions of "Application Article: Modeling Large Structures in EM.Tempo"

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{{projectinfo|Application|Radar Cross-Section of Aircraft|Large struct article ScreenCapture1.png|In this article, we explore computing RCS of electrically large structures, like aircraft.|
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{{projectinfo|Application|Radar Cross-Section of Aircraft|Large struct article ScreenCapture3.png|In this article, we explore computing RCS of electrically large structures, like aircraft.|
*Dispersive Material
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*Radar Cross Section
*Debye Pole
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*Large Projects
*Drude Pole
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*Cloud-Based Resources
*Lorentz Pole
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*Periodic Unit Cell
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*Reflection Coefficient
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*Transmission Coefficient
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|All versions| None }}
 
|All versions| None }}
  

Revision as of 19:38, 7 October 2016

Application Project: Radar Cross-Section of Aircraft
Large struct article ScreenCapture3.png

Objective: In this article, we explore computing RCS of electrically large structures, like aircraft.

Concepts/Features:

  • Radar Cross Section
  • Large Projects
  • Cloud-Based Resources

Minimum Version Required: All versions

'Download2x.png Download Link: None

Introduction

Figure 1: Geometry of the periodic unit cell of the dispersive water slab in EM.Tempo.


Figure 1: Geometry of the periodic unit cell of the dispersive water slab in EM.Tempo.


Figure 1: Geometry of the periodic unit cell of the dispersive water slab in EM.Tempo.


Figure 1: Geometry of the periodic unit cell of the dispersive water slab in EM.Tempo.


Figure 1: Geometry of the periodic unit cell of the dispersive water slab in EM.Tempo.
Figure 1: Geometry of the periodic unit cell of the dispersive water slab in EM.Tempo.
Figure 1: Geometry of the periodic unit cell of the dispersive water slab in EM.Tempo.
Figure 1: Geometry of the periodic unit cell of the dispersive water slab in EM.Tempo.
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