%0 Generic
%A Westerhof, Jelle
%A Giteau, Maxime
%A Sarkar, Mitradeep
%A Enders, Michael
%A Saive, Rebecca
%A Papadakis, Georgia
%D 2025
%T Data for the paper: Leveraging in-plane anisotropic materials for lithography-free omnidirectional thermal  emission control.
%U 
%R 10.4121/f5990bb6-6e15-4fe7-b4a4-7fe2e3fac80e.v1
%K Transfer matrix method
%K Thermal emission
%K anisotropic materials
%K directional emissivity
%X <p>This repository contains simulated optical response data (absorptance) generated using the Transfer Matrix Method (TMM) implemented in Julia. It corresponds to the paper:  Leveraging in-plane anisotropic materials for lithography-free omnidirectional thermal emission control. The data spans angular and spectral scans under different polarization configurations (S, P, SP), material stacks (SiC emitters, CaCO₃ spacers, gold reflectors), and spacer properties (thickness and anisotropic permittivities). The Julia script used to perform these simulations is included for reproducibility.</p>
%I 4TU.ResearchData