Study on the Eff ect of Material Absorption of Photonic Crystals on Transverse Magnetic Wave Band
Abstract
Photonic crystals are a major discovery in physics and have an important infl uence on our present life. The biggest feature of the photonic crystals is it has bandgap which can block photons of a certain frequency, thus affecting the photon movement. This eff ect is like the infl uence of the semiconductor body on electrons. Therefore, research and discovery of the photonic crystal is a broad prospect, people has large expectation on the photonic crystal. The emergence of photonic crystals makes it possible for the miniaturization and integration of some aspects of information technology. Study of structure able to determines characteristics, thus the discovery of the photonic crystal structure and function will lay the foundation for the study of its application, in this paper, the study is focus on the research of material absorption of photonic crystal on Transverse Magnetic (TM) wave band. Firstly, the basic knowledge and principle of photonic crystal are introduced. Then, the research was carried out to study the eff ect of characteristic matrix method on photon crystal TM energy wave through designed experiments and analyzed by computer software.References
The Theory of Transmission of Photon and Phononic Crystals (First Edition). Beijing: Science Press, 2013
YANG Li-yun, QIU Jian-rong.Progress in the preparation of photonic crystals [J].Journal of Laser and Optoelectronics,
,40 (8): 52-56.
LIU Qi-neng. Effect of impurity absorption on polarization state of photonic crystal defect mode [J]. Semiconductor
Optoelectronics, 2007,28 (6): 815-818
(4): 400-403 (in Chinese) [J]. Journal of Chongqing Technology and Business University (Natural Science Edition), 2006,23 (4):
-403 (in Chinese with English abstract)
New research and application of photonic crystal [J]. Semiconductor Optics, 2006,27 (3): 231-235 (in Chinese with English
abstract)
GONG Yi-ling, XU Zhen-yu, ZHANG Ruo-jing. Study on Band Gap of One-dimensional Photonic Crystals [J]. Journal of
Tongji University, 2004,32 (7): 720-723
Journal of Chongqing Technology and Business University (Natural Science Edition), 2006,23 (3): 285-288 (in Chinese with
English abstract) [J].
LIU Qi-neng. Eff ect of Absorption on Photonic Band Structure [J]. Laser u0026 Infrared, 2007,37 (6): 543-545
Acta Mechanica Sinica, 2007,44 (1): 65-68 (in Chinese) [J]. Journal of Laser and Optoelectronics, 2007,44 (1): 65-68
Study on the Eff ect of Material Absorbing Photonic Crystals on TM Band Energy Band
LIU Qi-Neng. Study on Defect Mode and Polarization Properties of One-Dimensional Doped Photonic Crystals [J]. Journal of
Laser Science, 2007,2 (1): 37-38
LIU Qi-Neng. Polarization Properties of One-dimensional Photonic Crystals. [J]. Semiconductor Optoelectronics, 2006,27 (6):
-732
LIU Qi-neng. A New Method for the Study of Band Gap Characteristics of One-dimensional Photonic Crystals [J]. Acta
Photonica Sinica, 2007,36 (6): 1031-1034
LIU Qi-neng. Eff ects of Absorption on Polarization States of Photonic Crystals [J]. Journal of Synthetic Crystals, 2007,36 (4):
-925
Yao Qijun. Optical Course (Fourth Edition). Beijing: Higher Education Press, 2009
Copyright (c) 2022 Hao Shi, Zhiping Zhao, Congwen Shen
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.