Numerical FEM design of two Me-NTA metasurface emitters producing single narrowband MIR emission at 4.5 μm (32.3% CE) and dual SIR/FIR emission at 2.5/10 μm (93%/85% peak) with reported powers and efficiencies.
Steiner, High temperature steady-state experiment for computational radiative heat transfer validation using COMSOL and ANSYS, Results in Engineering 13 (2022) 100354
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Design of an efficient Tunable Dual narrow-band MEMS Mid and Far IR emitter with Me-NTA for Industrial and Biomedical applications
Numerical FEM design of two Me-NTA metasurface emitters producing single narrowband MIR emission at 4.5 μm (32.3% CE) and dual SIR/FIR emission at 2.5/10 μm (93%/85% peak) with reported powers and efficiencies.