アプリケーションギャラリ

このモデルは, 金ナノ粒子による平面光波の散乱シミュレーションを示します. 散乱は, 金を負の複素誘電率を持つ材料としてモデル化できる光周波数範囲で計算されます. 遠方場パターンと損失も計算されます. 詳細を見る

Planar photonic waveguides in silica (SiO2) have great potential for use in wavelength routing applications. The major problem with this type of waveguide is birefringence. Anisotropic refractive indices result in fundamental mode splitting and pulse broadening. The goal is to minimize ... 詳細を見る

この例では, 静電インターフェースを使用して, 一般的な高電圧絶縁体の表面電場を計算する方法を示します. グレーディングリングを設置すると, 表面電場の不均一性と最大値が大幅に減少することが示されています. このようにして, 高電圧絶縁体はより高い過電圧に耐えることができます. 詳細を見る

この例では, 積層板の熱応力について考察します. コーティング層と基板層の2層からなる板は, 800 ℃ では応力とひずみがゼロの状態です. 板の温度を 150 ℃ まで下げると, 熱膨張係数の差により熱応力が発生します. 次に, 応力がゼロの状態から3層目のキャリア層を積層します. 最後に温度を 20 ℃ まで下げると, すべての層に熱応力が発生します. 詳細を見る

This model shows how to simulate a capacitively actuated surface micromachined accelerometer, using the Electromechanics Interface. It is based on a case study from the book Microsystem Design by Stephen D. Senturia (Kluwer Academic Publishers, 5th Edition, 2003, pages 513-525). 詳細を見る

In this model, we show how to model Seebeck effect which works as a thermoelectric generator. Seebeck effect is a phenomena where the difference in temperature of a material leads to a potential difference. The potential drawn in this model was compared with the paper by Jaegle (Example ... 詳細を見る

Silicon micromechanical resonators have long been used for designing sensors and are now becoming increasingly important as oscillators in the consumer electronics market. In this series of models, a surface micromachined MEMS resonator, designed as part of a micromechanical filter, is ... 詳細を見る

This model uses the Wave Optics Module and the Ray Optics module to model the propagation of rays through a diffraction grating at different angles of incidence. It uses the S-parameters computed by the Electromagnetic Waves, Frequency Domain interface on a unit cell of the grating to ... 詳細を見る

DC glow discharges in the low-pressure regime have long been used for gas lasers and fluorescent lamps. DC discharges are attractive to study because the solution is time independent. The 1D and 2D models show how to use the DC Discharge interface to set up an analysis of a positive ... 詳細を見る

This is a model of the heating process in a microwave oven. The distributed heat source is computed in a stationary, frequency-domain electromagnetic analysis. This is followed by a transient heat transfer simulation showing how the heat redistributes in the food. 詳細を見る