High accuracy modal analysis and beam propagation method for nano-waveguides

被引:1
作者
Mo, Guo-Liang [2 ]
Zhang, Xue-Cang [1 ]
机构
[1] Zhejiang Univ, Dept Informat Sci & Elect Engn, Hangzhou 310027, Peoples R China
[2] Zhejiang Univ City Coll, Sch Comp & Comp Sci, Hangzhou 310015, Zhejiang, Peoples R China
来源
OPTICAL AND QUANTUM ELECTRONICS | 2012年 / 44卷 / 10-11期
关键词
Modal analysis; Beam propagation method; Differentiation matrix; Nano-waveguide; FINITE-DIFFERENCE METHOD; LIGHT;
D O I
10.1007/s11082-012-9570-3
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
A mapped barycentric Chebyshev differentiation matrix (MBCDM) method is proposed for the high-accuracy modal analysis of waveguides and a new beam propagation method (BPM) based on this differentiation matrix is developed. Compared with the commonly used finite difference or finite element based modal analysis and BPM methods, MBCDM is much more accurate and efficient for the computation of guided, evanescent and leaky modes of 2D planar waveguides, 3D rectangular waveguides and circular fibers, and MBCDM-BPM is capable of simulating the propagation of all these modes. The high accuracy of MBCDM and MBCDM-BPM is particularly essential for the nanoscale waveguides with strong discontinuities, where evanescent waves play a central role and high-resolution solutions are necessary.
引用
收藏
页码:459 / 470
页数:12
相关论文
共 50 条
[41]   Analysis of integrated corner mirrors by using a wide-angle beam propagation method [J].
Dai, DX ;
Liu, L ;
He, SL .
OPTICS COMMUNICATIONS, 2006, 260 (02) :733-740
[42]   Analysis of optical waveguide structure using beam propagation method for optical wireless communications [J].
Suresh, L. R. D. ;
Sundaravadivelu, S. ;
Ponmalar, S. .
2006 IFIP INTERNATIONAL CONFERENCE ON WIRELESS AND OPTICAL COMMUNICATIONS NETWORKS, 2006, :673-+
[43]   Full-Vector Finite-Element Beam Propagation Method for Helicoidal Waveguides and Its Application to Twisted Photonic Crystal Fibers [J].
Fujisawa, Takeshi ;
Sato, Takanori ;
Saitoh, Kunimasa .
JOURNAL OF LIGHTWAVE TECHNOLOGY, 2017, 35 (14) :2894-2901
[44]   Efficient Modelling of 3D-Printed Freeform Waveguides by a Dedicated Beam-Propagation Method (BPM) Based on Transformation Optics [J].
Foroutan-Barenji, Sina ;
Krimmer, Jonas ;
Freude, Wolfgang ;
Koos, Christian .
25TH EUROPEAN CONFERENCE ON INTEGRATED OPTICS, ECIO 2024, 2024, 402 :105-110
[45]   A dynamic stiffness-based modal analysis method for a double-beam system with elastic supports [J].
Han Fei ;
Dan Danhui ;
Deng Zichen .
MECHANICAL SYSTEMS AND SIGNAL PROCESSING, 2021, 146
[46]   Beam propagation method based on finite element scheme and its application to optical waveguide analysis [J].
Koshiba, M .
ELECTRONICS AND COMMUNICATIONS IN JAPAN PART II-ELECTRONICS, 2002, 85 (10) :29-39
[47]   Analysis of optical waveguides with high-reflection coatings using the FD-TD method [J].
Yamauchi, J ;
Kanbara, H ;
Nakano, H .
IEEE PHOTONICS TECHNOLOGY LETTERS, 1998, 10 (01) :111-113
[48]   Critical comparison of three modal methods: bidirectional eigenmode expansion propagation method, aperiodic rigorous coupled mode analysis, and harmonic expansion method [J].
Ctyroky, Jiri ;
Richter, Ivan ;
Kwiecien, Pavel .
PHOTONICS NORTH 2008, 2008, 7099
[49]   Comparative modal analysis in micro–nano-optical fiber tapers using spectral parameter power series method and exact modes method [J].
R. Castillo-Perez ;
J. R. Ek-Ek ;
C. E. Jacome-Peñaherrera ;
D. Jauregui-Vazquez ;
R. Sanchez-Lara ;
H. L. Offerhaus ;
J. A. Alvarez-Chavez .
Journal of Computational Electronics, 2023, 22 :690-697
[50]   The Transverse Vectorial Finite Element Beam Propagation Method with Rectangular Nodal Element for Optical Waveguide Analysis [J].
Hongthong, Marinda ;
Angkaew, Tuptim .
2015 12TH INTERNATIONAL CONFERENCE ON ELECTRICAL ENGINEERING/ELECTRONICS, COMPUTER, TELECOMMUNICATIONS AND INFORMATION TECHNOLOGY (ECTI-CON), 2015,
12345