Abstract
This study is done to analyze the effect of structural metal of metamaterial on the performance of the absorber. Absorbers are important part of various applications because of the increased demand of radiation absorption. This study is aimed to study the effect of various metals and compared based on their absorption performance. It is observed that bismuth provides the best absorption characteristics among all the considered metals.
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References
Laszlo BK (2002) End of moores law: thermal (noise) death of integration in micro and nano electronics. Phys Lett A 305(3):144149
Chen HT, Padilla WJ, Zide JM, Gossard AC, Taylor AJ, Averitt RD (2006) Active terahertz metamaterial devices. Nature 444(7119):597–600
Agarwal S, Prajapati YK (2017) Analysis of metamaterial-based absorber for thermo-photovoltaic cell applications. IET Optoelectron 11(5):208–212
Yang J, Gong C, Sun L, Chen P, Lin L, Liu W (2016) Tunable reflecting terahertz filter based on chirped metamaterial structure. Sci Rep 6
Cai W, Shalaev V (2009) Optical metamaterials: fundamentals and applications. Springer Science & Business Media
Landy NI, Sajuyigbe S, Mock JJ, Smith DR, Padilla WJ (2008) Perfect metamaterial absorber. Phys Rev Lett 100(20):207402
Wu C, Neuner B III, John J, Milder A, Zollars B, Savoy S, Shvets G (2012) Metamaterial-based integrated plasmonic absorber/emitter for solar thermo-photovoltaic systems. J Opt 14(2):024005
Shchegolkov DY, Azad AK, Ohara JF, Simakov EI (2010) Perfect subwavelength fishnetlike metamaterial-based film terahertz absorbers. Phys Rev B 82(20):205117
Andryieuski A, Lavrinenko AV (2013) Graphene metamaterials based tunable terahertz absorber: effective surface conductivity approach. Opt Express 21(7):9144–9155
Slobozhanyuk AP, Lapine M, Powell DA, Shadrivov IV, Kivshar YS, McPhedran RC, Belov PA (2013) Flexible helices for nonlinear metamaterials. Adv Mater 25(25):3409–3412
Gansel JK, Thiel M, Rill MS, Decker M, Bade K, Saile V, Freymann G, Linden S, Wegener M (2009) Gold helix photonic metamaterial as broadband circular polarizer. Science 325(5947):1513–1515
Agarwal S, Prajapati YK, Singh V, Saini JP (2015) Polarization independent broadband metamaterial absorber based on tapered helical structure. Opt Commun 356:565–570
Ghobadi A, Hajian H, Gokbayrak M, Butun B, Ozbay E (2019) Bismuth-based metamaterials: from narrowband reflective color filter to extremely broadband near perfect absorber. Nanophotonics 8(5):823–832
Sadecka K, Toudert J, Surma HB, Pawlak DA (2015) Temperature and atmosphere tunability of the nanoplasmonic resonance of a volumetric eutectic-based Bi2O3-Ag metamaterial. Opt Express 23(15):19098–19111
Cheng XS, Ahmad H, Harun SW (2010) Broadband ASE source using bismuth-based erbium doped fibers in double-pass setup. Microw Opt Technol Lett 52(7):1636–1638
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Agarwal, S., Prajapati, Y.K. (2021). Effect of Structural Metal on Metamaterial-Based Absorber Performance. In: Harvey, D., Kar, H., Verma, S., Bhadauria, V. (eds) Advances in VLSI, Communication, and Signal Processing. Lecture Notes in Electrical Engineering, vol 683. Springer, Singapore. https://doi.org/10.1007/978-981-15-6840-4_31
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DOI: https://doi.org/10.1007/978-981-15-6840-4_31
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