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DAC
2002
ACM
2002
ACM
A fast optical propagation technique for modeling micro-optical systems
As designers become more aggressive in introducing optical components to micro-systems, rigorous optical models are required for system-level simulation tools. Common optical modeling techniques and approximations are not valid for most optical micro-systems, and those techniques that provide accurate simulation are computationally slow. In this paper, we introduce an angular frequency optical propagation technique that greatly reduces computation time while achieving the accuracy of a full scalar formulation. We present simulations of a diffractive optical MEM Grating Light Valve to show the advantages of this optical propagation method and the integration of the technique into a system-level multi-domain CAD tool. Categories and Subject Descriptors I.6.5 [Simulation and Modeling]: Model Development modeling methodologies General Terms Algorithms, Design Keywords Optical Propagation, Angular Spectrum, CAD, Optical Micro-systems, Optical MEMS
Real-time TrafficDAC 2002 | Design Automation | Keywords Optical Propagation | Optical Micro-systems | Optical Propagation Technique |
| Added | 13 Nov 2009 |
| Updated | 13 Nov 2009 |
| Type | Conference |
| Year | 2002 |
| Where | DAC |
| Authors | Timothy P. Kurzweg, Steven P. Levitan, Jose A. Martinez, Mark Kahrs, Donald M. Chiarulli |
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