Curvilinear DGTD method for nanophotonics applications
نویسندگان
چکیده
Classical nite element methods rely on tessellations composed of straight-edged elements mapped linearly from a reference element, on domains which physical boundaries are indi erently straight or curved. This approximation represents serious hindrance for high-order methods, since they limit the precision of the spatial discretization to second order. Thus, exploiting an enhanced representation of the physical geometry of a considered problem is in agreement with the natural procedure of high-order methods, such as the discontinuous Galerkin method. In the latter framework, we propose and validate an implementation of a high-order mapping for tetrahedra, and then focus on speci c nanophotonics setups to assess the gains of the method in terms of memory and performances.
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Development of DGTD solver for nanophotonics applications
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