Data for the paper: Leveraging in-plane anisotropic materials for lithography-free omnidirectional thermal emission control.
DOI:10.4121/f5990bb6-6e15-4fe7-b4a4-7fe2e3fac80e.v1
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DOI: 10.4121/f5990bb6-6e15-4fe7-b4a4-7fe2e3fac80e
DOI: 10.4121/f5990bb6-6e15-4fe7-b4a4-7fe2e3fac80e
Datacite citation style
Westerhof, Jelle; Giteau, Maxime; Sarkar, Mitradeep; Enders, Michael; Rebecca Saive et. al. (2025): Data for the paper: Leveraging in-plane anisotropic materials for lithography-free omnidirectional thermal emission control. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/f5990bb6-6e15-4fe7-b4a4-7fe2e3fac80e.v1
Other citation styles (APA, Harvard, MLA, Vancouver, Chicago, IEEE) available at Datacite
Dataset
by
Jelle Westerhof
,
Maxime Giteau
,
Mitradeep Sarkar
,
Michael Enders
,
Rebecca Saive
,
Georgia Papadakis
,
Maxime Giteau
,
Mitradeep Sarkar
,
Michael Enders
,
Rebecca Saive
,
Georgia Papadakis
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.
History
- 2025-06-10 first online, published, posted
Publisher
4TU.ResearchDataFormat
script/.jl metadata/.md absorption data/.csvOrganizations
University of Twente, MESA+ Institute for NanotechnologyInstitut de Ciències Fotòniques
DATA
Files (16)
- 3,270 bytesMD5:
551f3bc557e4fa831d02bdc85e49a853README_TMM.md - 77,592 bytesMD5:
40ba7e23c6f16a1d38d064c2a268e257AnisotropicSalisburyScreenPRB.jl - 1,085,948 bytesMD5:
6abefe22f5ab6155757bfbf650caaaf3TMM20250608_thetalambda_phi0_Pol_SP_emitSiC_spacCaCO3_reflGold.csv - 535,974 bytesMD5:
686df6756f3949e103a2c6a0e8761d82TMM20250608_thetalambda_phi0_Pol_SP_eso1_ese1pt6_d6pt39.csv - 1,087,877 bytesMD5:
1b09ceb8d5cd02641123660536b02413TMM20250608_thetalambda_phi90_Pol_SP_emitSiC_spacCaCO3_reflGold.csv - 535,562 bytesMD5:
8ccac8baf3fa30d85c39b1ab2f7e97d3TMM20250608_thetalambda_phi90_Pol_SP_eso1_ese1pt6_d6pt39.csv - 1,306,481 bytesMD5:
5889741dfa457c839146427251183d3fTMM20250608_thetaphi_Pol_P_emitSiC_spacCaCO3_reflGold.csv - 1,271,284 bytesMD5:
9f58b68112d5c5ce5bea5d0e856bbe8cTMM20250608_thetaphi_Pol_P_eso1_ese1pt6_d6pt39.csv - 1,270,454 bytesMD5:
d070148a39765e1918e5523c4f323835TMM20250608_thetaphi_Pol_P_eso1pt3_ese4pt5_d3pt6.csv - 1,334,146 bytesMD5:
ca4f73e619afbdb0437a71b0f59d5f50TMM20250608_thetaphi_Pol_S_emitSiC_spacCaCO3_reflGold.csv - 1,304,509 bytesMD5:
0222595cacae2c19b07cd6e6438904e5TMM20250608_thetaphi_Pol_S_eso1_ese1pt6_d6pt39.csv - 1,298,708 bytesMD5:
d753cf85e367ea5502cc7f41948a9c14TMM20250608_thetaphi_Pol_S_eso1pt3_ese4pt5_d3pt6.csv - 1,313,570 bytesMD5:
ad24289197acbf1be7ca217862f50de4TMM20250608_thetaphi_Pol_SP_emitSiC_spacCaCO3_reflGold.csv - 1,279,170 bytesMD5:
6d9dfed5ccb6a2e8a8ae963f33f14e5cTMM20250608_thetaphi_Pol_SP_eso1_ese1pt6_d6pt39.csv - 1,280,390 bytesMD5:
d180931127884e7d7985536eb751ec5aTMM20250608_thetaphi_Pol_SP_eso1pt3_ese4pt5_d3pt6.csv - 1,273,679 bytesMD5:
b6d405004d559c0ef98ed3393910621bTMM20250608_thetaphi_Pol_SP_eso1pt6_ese4pt8_d5pt8.csv -
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