21 May 2018 Photonic crystals with a continuous, Gaussian-type surface profile for near-perfect light trapping
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We show a unique design of teepee-like photonic crystal (TP-PC) structure that possesses a true gradient, Gaussian-type surface profile for smooth and accurate index matching between air and silicon for near-perfect light trapping. Such funnel-like, inverse-conical topography is capable of achieving near-zero optical reflection and near-unity solar absorption with excellent angular response over the entire visible light wavelength range. The fabrication only requires standard microelectronics reactive-ion etching (RIE) process. We demonstrate how various process parameters, such as RIE gas mixture ratio, RIE power, thickness of silicon dioxide (SiO2) coatings, and lattice constant of the photonic crystal, can impact the details of the “Gaussian” profile and further improve the optical performance of the TP-PC structure at broad-λ, broad-θ, especially in the ultraviolet (UV) wavelength range. Our finite-difference time-domain (FDTD) simulation of the TP-PC structure reveals existence of multiple absorption resonances in the 800- to1100-nm wavelength range. Poynting vector plots show that such strong absorption enhancements at the resonant frequencies are due to long-lifetime photonic modes arising from parallel-to-interface refraction of the incoming sunlight and formation of vortex-like energy flow pattern inside the TP-PC structure. Our design will lead the way for future development of ultrathin, high-efficiency c-Si solar photovoltaics.
© 2018 Society of Photo-Optical Instrumentation Engineers (SPIE)
Ping Kuang, Ping Kuang, Sayak Bhattacharya, Sayak Bhattacharya, Mei-Li Hsieh, Mei-Li Hsieh, Sajeev John, Sajeev John, Shawn-Yu Lin, Shawn-Yu Lin, } "Photonic crystals with a continuous, Gaussian-type surface profile for near-perfect light trapping," Journal of Nanophotonics 12(2), 026011 (21 May 2018). https://doi.org/10.1117/1.JNP.12.026011 . Submission: Received: 13 July 2017; Accepted: 30 April 2018
Received: 13 July 2017; Accepted: 30 April 2018; Published: 21 May 2018

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