了解多物理场仿真在基础研究和产品设计中的应用
各个行业的工程师和科研人员都在使用多物理场仿真来研发创新的产品设计和流程。他们在 COMSOL 用户年会上展示了丰富的技术论文和演示文稿,您可以从他们的研究成果中寻找灵感。
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查看 COMSOL 用户年会 2020 论文
The microscopic size of MEMS devices accounts for strong coupling effects which arise between the different ... 扩展阅读
In this contribution we study how a planar photonic crystal waveguide (PhCW), created by introducing a line ... 扩展阅读
Nano-structures consisting of layered metal-dielectric stacks (MDSs) can be designed to have evanescent ... 扩展阅读
One of the major challenges in designing µTEGs is to minimize power loss due to internal resistance (r) of ... 扩展阅读
Photonic crystals (PhC) are optical nanostructures that are widely known for their strong spatial and ... 扩展阅读
Plasmonic resonances arising in gold nanoparticles lead to strongly localized near-field enhancements. These ... 扩展阅读
Effective control over single atom emission might lead to major breakthrough in the field of nanotechnology. ... 扩展阅读
The piezoresistance effect is defined as change in resistance due to applied stress. Silicon has a relatively ... 扩展阅读
In the finite element based modeling and simulations only the coherent propagation of light is considered. ... 扩展阅读
We report an implementation of parallel computing on Amazon Web Services™ (AWS) for touch-sensor modeling. ... 扩展阅读