fa Simulation and Characteristics Comparison of Slow Light Occurrence Using Plasmonic Induced Transparency Resulting from Utilization of Gold and Silver in the Nano-Structure of Metal/Dielectric/Metal تخصصی Special پژوهشي Research <p><strong>Using plasmonic devices, by converting incoming light into surface plasmon polaritons on the border between metal and dielectric at the same frequency, faster signal processing and light transmission is possible in the very compact space. In this paper we tried to design a new structure for slow light creation based on plasmonic induced transparency in a circular metal-dielectric-metal resonator. Length of the proposed plasmonic system is about 600 nm and the radius of the ring is equal to 5.5 micrometers. First we used gold as the metal of the structure then changed it to silver. In both cases, the dielectric material is poly-methyl meta-acrylic, the pump wavelength is 1550 nm and the signal wavelength is 860 nm. Simulation results show that in the first case, where the metal is gold, slow light features are much better in comparison with the second case, where the metal is silver.</strong></p> <p dir="ltr" style="text-align: justify;"><strong>Using plasmonic devices, by converting incoming light into surface plasmon polaritons on the border between metal and dielectric at the same frequency, faster signal processing and light transmission is possible in the very compact space. In this paper we tried to design a new structure for slow light creation based on plasmonic induced transparency in a circular metal-dielectric-metal resonator. Length of the proposed plasmonic system is about 600 nm and the radius of the ring is equal to 5.5 micrometers. First we used gold as the metal of the structure then changed it to silver. In both cases, the dielectric material is poly-methyl meta-acrylic, the pump wavelength is 1550 nm and the signal wavelength is 860 nm. Simulation results show that in the first case, where the metal is gold, slow light features are much better in comparison with the second case, where the metal is silver.</strong></p> Plasmonic Induced Transparency (PIT), Surface Plasmon Polaritons (SPPs), Groups Velocity, Slow Light, Metal-Dielectric-Metal Plasmonic Induced Transparency (PIT), Surface Plasmon Polaritons (SPPs), Groups Velocity, Slow Light, Metal-Dielectric-Metal 1121 1124 http://opsi.ir/browse.php?a_code=A-10-1-1181&slc_lang=fa&sid=1 Mahdi Hasani Keleshtery Mahdi Hasani Keleshtery Hassanik.me@fe.lu.ac.ir 10031947532846005028 10031947532846005028 Yes Lorestan University Lorestan University Ali Mir Ali Mir Mir.a@lu.ac.ir 10031947532846005029 10031947532846005029 No Lorestan University Lorestan University Hassan Kaatuzian Hassan Kaatuzian Hsnkato@aut.ac.ir 10031947532846005030 10031947532846005030 No Amirkabir University of Technology Amirkabir University of Technology