Title :
High Broadband Transmission of Light Through a Multi-Layer Sandwich Microstructure Containing a Seamless Metallic Film
Author :
Hu Quan Li ; Jinsong Liu ; Zhengang Yang ; Kejia Wang
Author_Institution :
Sch. of Opt. & Electron. Inf., Huazhong Univ. of Sci. & Technol., Wuhan, China
Abstract :
A category of microstructure is proposed, which consists of a seamless metallic film sandwiched in multi-layer dielectric films of Si and SiO2. Such a structure can support unimaginable high broadband electromagnetic transmission from visible to near infrared. The transfer matrix theory is used to perform the numerical experiment and analyze the transmission characteristics. It has been revealed that Fabry-Pérot and bulk plasmon resonant modes excited in the composite structure contribute to the high broadband transmission that is weakly dependent on the geometry parameters and the polarization and incident angle of the light. When using a 15-nm Ag film, the calculated structure´s sheet resistance is ~2 Ω/sq, which is superior to that of indium tin oxide glasses, thus making promising applications in optoelectronic devices, especially in photovoltaics.
Keywords :
MIS structures; composite materials; crystal microstructure; dielectric thin films; electrical resistivity; elemental semiconductors; infrared spectra; light polarisation; metallic thin films; multilayers; sandwich structures; semiconductor thin films; silicon; silicon compounds; silver; surface plasmon resonance; transfer function matrices; visible spectra; Ag-SiO2-Si; Fabry-Perot modes; bulk plasmon resonant modes; composite structure; geometry parameters; high-broadband electromagnetic transmission; high-broadband light transmission; incident light angle; indium tin oxide glasses; light polarization; multilayer dielectric films; multilayer sandwich microstructure; near infrared transmission; optoelectronic devices; photovoltaics; seamless metallic film; sheet resistance; size 15 nm; transfer matrix theory; visible transmission; Broadband communication; Cascading style sheets; Dielectric films; Optical films; Optical filters; Plasmons; Broadband transmission; Thin films; broadband transmission; optical properties; thin films; transparent conductor;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2014.2361627
