E. Rephaeli, A. Raman, and S. Fan, Ultrabroadband photonic structures to achieve highperformance daytime radiative cooling, Nano letters, vol.13, issue.4, pp.1457-1461, 2013.

J. Kou, Z. Jurado, Z. Chen, S. Fan, and A. J. Minnich, Daytime radiative cooling using nearblack infrared emitters, Acs Photonics, vol.4, issue.3, pp.626-630, 2017.

M. Steglich, D. Lehr, S. Ratzsch, T. Käsebier, F. Schrempel et al., An ultra-black silicon absorber, Laser & Photonics Reviews, vol.8, issue.2, pp.13-17, 2014.

S. Ma, S. Liu, Q. Xu, J. Xu, R. Lu et al., A theoretical study on the optical properties of black silicon, AIP Advances, vol.8, issue.3, p.35010, 2018.

. Yu, Z. Xin-yue, C. Lv, X. Li, J. Han et al., The optical and electrical properties of codoped black silicon textured by a femtosecond laser and its application to infrared light sensing, IEEE Sensors Journal, vol.16, issue.13, pp.5227-5231, 2016.

J. Lv, T. Zhang, P. Zhang, Y. Zhao, and S. Li, Review application of nanostructured black silicon, Nanoscale research letters, vol.13, issue.1, p.110, 2018.

D. Saab, P. Abi, M. J. Basset, M. L. Pierotti, D. E. Trawick et al., Static and dynamic aspects of black silicon formation, Physical review letters, vol.113, issue.26, p.265502, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01767962

D. Saab, S. Abi, P. Mostarshedi, S. Basset, D. Protat et al., Effect of black silicon disordered structures distribution on its wideband reduced reflectance, Materials Research Express, vol.1, issue.4, p.45045, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01444437

K. N. Nguyen, P. Basset, F. Marty, Y. Leprince-wang, and T. Bourouina, On the optical and morphological properties of microstructured Black Silicon obtained by cryogenic-enhanced plasma reactive ion etching, Journal of Applied Physics, vol.113, issue.19, p.194903, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01721058

B. Ko, D. Lee, T. Badloe, and J. Rho, Metamaterial-Based Radiative Cooling: Towards Energy-Free All-Day Cooling, vol.12, p.89, 2019.

H. M. Branz, E. Vernon, S. Yost, K. M. Ward, B. Jones et al., Nanostructured black silicon and the optical reflectance of graded-density surfaces, Applied Physics Letters, vol.94, issue.23, p.231121, 2009.

J. J. Hench and Z. D. Strako?, The RCWA method-a case study with open questions and perspectives of algebraic computations, Electronic Transactions on Numerical Analysis, vol.31, pp.331-357, 2008.

J. I. Gittleman, E. K. Sichel, H. W. Lehmann, and R. Widmer, Textured silicon: a selective absorber for solar thermal conversion, Applied Physics Letters, vol.35, issue.10, pp.742-744, 1979.

H. G. Craighead, R. E. Howard, and D. M. Tennant, Textured thin-film Si solar selective absorbers using reactive ion etching, Applied Physics Letters, vol.37, issue.7, pp.653-655, 1980.

. Liu, P. R. Xiaogang, M. Coxon, B. Peters, J. M. Hoex et al., Black silicon: fabrication methods, properties and solar energy applications, Energy & Environmental Science, vol.7, issue.10, pp.3223-3263, 2014.

M. Schnell, R. Ludemann, and S. Schaefer, Plasma surface texturization for multicrystalline silicon solar cells, Conference Record of the Twenty-Eighth IEEE Photovoltaic Specialists Conference-2000 (Cat. No. 00CH37036), pp.367-370, 2000.

H. Jansen, M. De-boer, R. Legtenberg, and M. Elwenspoek, The black silicon method: a universal method for determining the parameter setting of a fluorinebased reactive ion etcher in deep silicon trench etching with profile control, Journal of Micromechanics and Microengineering, vol.5, issue.2, p.115, 1995.

H. Jansen, M. De-boer, J. Burger, R. Legtenberg, and M. Elwenspoek, The black silicon method II: The effect of mask material and loading on the reactive ion etching of deep silicon trenches, Microelectronic engineering, vol.27, issue.1-4, pp.475-480, 1995.

J. Stampfl, S. Scherer, M. Gruber, and O. Kolednik, Reconstruction of surface topographies by scanning electron microscopy for application in fracture research, Applied Physics A, vol.63, issue.4, pp.341-346, 1996.

. Zhu, Q. Fu-yun, X. Wang, W. Zhang, X. Hu et al., 3D nanostructure reconstruction based on the SEM imaging principle, and applications, Nanotechnology, vol.25, issue.18, p.185705, 2014.

S. Basu and M. Francoeur, Near-field radiative transfer based thermal rectification using doped silicon, Applied Physics Letters, vol.98, issue.11, p.113106, 2011.

F. Marquier, K. Joulain, J. Mulet, R. Carminati, J. Greffet et al., Coherent spontaneous emission of light by thermal sources, Physical Review B, vol.69, issue.15, p.155412, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00270105

J. R. Howell, M. P. Menguc, and R. Siegel, Thermal radiation heat transfer, 2015.