Possibility of amplification of surface plasmon-polaritons by DC in the system with 2D photonic crystal

被引:0
作者
Lozovski, V. [1 ]
Tsykhonya, A. [1 ]
Rudavskyi, A. [2 ]
机构
[1] Kyiv T Shevchenko Natl Univ, Radiophys Fac, Glushkov Ave 2,Build 5, UA-03022 Kiev, Ukraine
[2] Univ Groningen, Zernike Inst Adv Mat, NL-9747 AG Groningen, Netherlands
来源
NANOPHOTONICS II | 2008年 / 6988卷
关键词
amplification; surface plasmon-polaritons; photonic crystal;
D O I
10.1117/12.779743
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
The possibility of surface waves amplification by direct electrical current is theoretically investigated in three-layered system with periodical structure at the surface. The analytical calculations were performed in the frame of the Green function method on the base of the concept of effective susceptibility. Numerical analysis clearly proves the presence of convective instability and it means that such a system can be considered as a surface waves' amplifier. Because of periodical structure the phase synchronism domain lies in the range of entirely accessible in practice values of wave vector and frequency. The increment of spatial growth amounts to several tens within the region of phase synchronism. It means that predicted effect of amplification can be applied on practice.
引用
收藏
页数:10
相关论文
共 50 条
[31]   Spontaneous emission based on 2D photonic crystal and quantum dot [J].
Attia, Moez ;
Chatta, Rihab ;
Zghal, Mourad .
2007 ICTON MEDITERRANEAN WINTER CONFERENCE, 2007, :43-46
[32]   Analysis of transmission property in 2D photonic crystal waveguide coupler [J].
Han, Lihong ;
Yu, Zhongyuan ;
Liu, Yumin ;
Lu, Pengfei .
Guangxue Xuebao/Acta Optica Sinica, 2009, 29 (SUPPL.) :144-147
[33]   A high-performance, metallodielectric 2D photonic crystal for thermophotovoltaics [J].
Sakakibara, Reyu ;
Stelmakh, Veronika ;
Chan, Walker R. ;
Geil, Robert D. ;
Kramer, Stephan ;
Savas, Timothy ;
Ghebrebrhan, Michael ;
Joannopoulos, John D. ;
Soljacic, Marin ;
Celanovic, Ivan .
SOLAR ENERGY MATERIALS AND SOLAR CELLS, 2022, 238
[34]   Modeling of spectral dependences for 2D photonic crystal waveguide systems [J].
A. N. Bogolubov ;
G. V. Belokopytov ;
Z. O. Dombrovskaya .
Moscow University Physics Bulletin, 2013, 68 :344-350
[35]   Computational and experimental development of 2D anisotropic photonic crystal metamaterials [J].
Ethridge, James A. ;
Marciniak, Michael A. ;
Sarangan, Andrew M. .
NANOENGINEERING: FABRICATION, PROPERTIES, OPTICS, THIN FILMS, AND DEVICES XVI, 2019, 11089
[36]   Photonic crystal based 2D integrating cell for sensing applications [J].
Fohrmann, Lena Simone ;
Petrov, Alexander Yu. ;
Sommer, Gerrit ;
Krauss, Thomas ;
Eich, Manfred .
PHOTONIC CRYSTAL MATERIALS AND DEVICES XII, 2016, 9885
[37]   Modeling of spectral dependences for 2D photonic crystal waveguide systems [J].
Bogolubov, A. N. ;
Belokopytov, G. V. ;
Dombrovskaya, Z. O. .
MOSCOW UNIVERSITY PHYSICS BULLETIN, 2013, 68 (05) :344-350
[38]   Ultrahigh-Q modes in anisotropic 2D photonic crystal [J].
Bouleghlimat, Oussama ;
Hocini, Abdesselam .
PHYSICA SCRIPTA, 2014, 89 (10)
[39]   2D photonic crystal cavity-based WDM multiplexer [J].
Manzacca, Gianluca ;
Paciotti, Daniele ;
Marchese, Alessandro ;
Moreolo, Michela Svaluto ;
Cincotti, Gabriella .
PHOTONICS AND NANOSTRUCTURES-FUNDAMENTALS AND APPLICATIONS, 2007, 5 (04) :164-170
[40]   2D photonic crystal patterning for high volume LED manufacturing [J].
Hershey, Rob ;
Miller, Mike ;
Jones, Chris ;
Subramanian, Mahadevan Ganapathi ;
Lu, Xiaoming ;
Doyle, Gary ;
Lentz, David ;
LaBrake, Dwayne .
SIXTH INTERNATIONAL CONFERENCE ON SOLID STATE LIGHTING, 2006, 6337
12345