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Judul : Analisa Surface Plasmon Polariton (SPR) pada Rod Metal Menggunakan Metode Finite Difference Time Domain (FDTD)

Abstrak :
Simulasi perambatan gelombang elektromagnetik telah dilakukan pada rodmetal (metallic rod) menggunakan metode Finite Difference Time Domain (FDTD).Untuk polarisasi transverse electric (TE) terlihat adanya fenomena Surface Plasmon Polariton (SPR) pada permukaaan rod. Variasi diameter rod dillakukan untuk melihat panjang gelombang resonansi terjadinya fenomena tersebut. Sebagai pembanding, jika rod diganti dengan bahan dielektrik fenomena surface plasmon tidak terjadi.

Tahun : 2017 Media Publikasi : Jurnal Nasional Terakreditasi B

Kategori : Jurnal No/Vol/Tahun : 1 / 14 / 2017

ISSN/ISBN : 1693-7554

PTN/S : Universitas Pakuan Program Studi : ILMU KOMPUTER

Bibliography :
[1] Z. Sun. Study of Metallic Nano-Optic Structures. Dissertasi: Lanzhou University, Cina. 2000

[2] W. Zhaoa, H. W. Dengb & Y. J. Zhaoc, Journal of Electromagnetic Waves and Applications, Volume 22, Issue 17-18, 2008

[3] W. G. Strang, G. J. Fix, (1973). An Analysis of The Finite Element Method. Prentice Hall. ISBN 0- 13-032946-0

[4] R, Eymard, T, Gallouët, R, Herbin, (2000) The finite volume method Handbook of Numerical Analysis, Vol. VII, 2000, p. 713–1020. Editors: P.G. Ciarlet and J.L. Lions.

[5] K. Stanigel, M. Konig, J. Niegemann. Proceedings of SPIE, The International Society for Optical Engineering, 2009; DOI: 10.1117/12.823517

[6] L. Lin, R. J. Blaikie, and R. J. Reeves, Surface-Plasmon-Enhanced Optical Transmissionthrough Planar Metal Films, Progress In Electromagnetics Research Symposium, 2005

[7] Y. Chen and W. Liu, Optics Letters, Vol. 37, Issue 1, pp. 4-6 (2012)

[8] K. B. Thapa, N. K. Mishra, G. N. Pandey, Jagmandar, dan S. P . Ojha. Enhanced Absorption In Periodik One-Dimensional Metallic-Organic Periodic Structure, Progress In Electromagnetics Research M, Vol. 8, 221–233, 2009

[9] J. H. Oates. 1994. Propagation and Scatering of Electromagnetic Waves in Complex Environments. Dissertasi. Massachusetts Institute of Technology

[10] Y. X. Yang, H. C. Zhao.Analysis of equivalent antenna based on FDTD method. Defence Technology, Volume 10, Issue 3, Pages 304–307 (2014)

[11] Y. T. Duan, B. Chen, L. H. Shi, and C. Gao. Analysis of Planar Circuits Using an Efficient Laguerre- Based FDTD Method. Progress In Electromagnetics Research M, Vol. 38, 155–163, 2014

[12] F. L. Teixeira, W. C. Chew, M. Straka, M. L. Oristaglio. Finite-Difference Time-Domain Simulation ofGround Penetrating Radar on Dispersive,Inhomogeneous, and Conductive Soils. IEEE Transactions on Geoscience and Remote Sensing, Vol. 36, No. 6(1998)

[13] J.Q. Lu, P. Yang, X.H. Hu, "Simulations of Light Scattering from a Biconcave Red Blood Cell Using the FDTD method", Journal of Biomedical Optics, 10(2), 024022 (2005)

URL : https://journal.unpak.ac.id/index.php/komputasi/issue/view/49

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Judul	:	Analisa Surface Plasmon Polariton (SPR) pada Rod Metal Menggunakan Metode Finite Difference Time Domain (FDTD)
Abstrak	:	Simulasi perambatan gelombang elektromagnetik telah dilakukan pada rodmetal (metallic rod) menggunakan metode Finite Difference Time Domain (FDTD).Untuk polarisasi transverse electric (TE) terlihat adanya fenomena Surface Plasmon Polariton (SPR) pada permukaaan rod. Variasi diameter rod dillakukan untuk melihat panjang gelombang resonansi terjadinya fenomena tersebut. Sebagai pembanding, jika rod diganti dengan bahan dielektrik fenomena surface plasmon tidak terjadi.
Tahun	:	2017	Media Publikasi	:	Jurnal Nasional Terakreditasi B
Kategori	:	Jurnal	No/Vol/Tahun	:	1 / 14 / 2017
ISSN/ISBN	:	1693-7554
PTN/S	:	Universitas Pakuan	Program Studi	:	ILMU KOMPUTER
Bibliography	:	[1] Z. Sun. Study of Metallic Nano-Optic Structures. Dissertasi: Lanzhou University, Cina. 2000 [2] W. Zhaoa, H. W. Dengb & Y. J. Zhaoc, Journal of Electromagnetic Waves and Applications, Volume 22, Issue 17-18, 2008 [3] W. G. Strang, G. J. Fix, (1973). An Analysis of The Finite Element Method. Prentice Hall. ISBN 0- 13-032946-0 [4] R, Eymard, T, Gallouët, R, Herbin, (2000) The finite volume method Handbook of Numerical Analysis, Vol. VII, 2000, p. 713–1020. Editors: P.G. Ciarlet and J.L. Lions. [5] K. Stanigel, M. Konig, J. Niegemann. Proceedings of SPIE, The International Society for Optical Engineering, 2009; DOI: 10.1117/12.823517 [6] L. Lin, R. J. Blaikie, and R. J. Reeves, Surface-Plasmon-Enhanced Optical Transmissionthrough Planar Metal Films, Progress In Electromagnetics Research Symposium, 2005 [7] Y. Chen and W. Liu, Optics Letters, Vol. 37, Issue 1, pp. 4-6 (2012) [8] K. B. Thapa, N. K. Mishra, G. N. Pandey, Jagmandar, dan S. P . Ojha. Enhanced Absorption In Periodik One-Dimensional Metallic-Organic Periodic Structure, Progress In Electromagnetics Research M, Vol. 8, 221–233, 2009 [9] J. H. Oates. 1994. Propagation and Scatering of Electromagnetic Waves in Complex Environments. Dissertasi. Massachusetts Institute of Technology [10] Y. X. Yang, H. C. Zhao.Analysis of equivalent antenna based on FDTD method. Defence Technology, Volume 10, Issue 3, Pages 304–307 (2014) [11] Y. T. Duan, B. Chen, L. H. Shi, and C. Gao. Analysis of Planar Circuits Using an Efficient Laguerre- Based FDTD Method. Progress In Electromagnetics Research M, Vol. 38, 155–163, 2014 [12] F. L. Teixeira, W. C. Chew, M. Straka, M. L. Oristaglio. Finite-Difference Time-Domain Simulation ofGround Penetrating Radar on Dispersive,Inhomogeneous, and Conductive Soils. IEEE Transactions on Geoscience and Remote Sensing, Vol. 36, No. 6(1998) [13] J.Q. Lu, P. Yang, X.H. Hu, "Simulations of Light Scattering from a Biconcave Red Blood Cell Using the FDTD method", Journal of Biomedical Optics, 10(2), 024022 (2005)
URL	:	https://journal.unpak.ac.id/index.php/komputasi/issue/view/49