介质层厚度无序对Bragg微腔模式的影响
郑改革, 史林兴, 王海娇, 蒋立勇, 李相银. 介质层厚度无序对Bragg微腔模式的影响[J]. 光子学报, 2009, 38(3): 587.
ZHENG Gai-ge, SHI Lin-xing, WANG Hai-jiao, JIANG Li-yong, LI Xiang-yin. Effects of Disorder on Mode of Photonic Crystal Bragg Cavity[J]. ACTA PHOTONICA SINICA, 2009, 38(3): 587.
[1] . Optical characterization of two-dimensional photonic crystal cavities with indium arsenide quantum dot emitters[J]. Appl Phys Let, 2001, 79(1): 114-116.
[2] . Indistinguishable single photons from a single-quantum dot in a two-dimensional photonic crystal cavity[J]. Appl Phys Lett, 2005, 87(31): 163107.
[3] . Nanoscale quantum dot infrared sensors with photonic crystal cavity[J]. Appl Phys Lett, 2006, 88(15): 151104.
[4] . Full photonic bandgaps and spontaneous emission control in 1D multilayer dielectric structures[J]. Opt Commun, 1999, 160(1): 66-71.
[5] . Preparation of one-dimensional photonic crystal with variable period by using ultra-high vacuum electron beam evaporation[J]. Microelectronics Journal, 2007, 38(2): 282-284.
[6] . Radiation properties of a planar antenna on a photonic-crystal substrate[J]. J Opt Soc Am B, 1993, 10(2): 404-407.
[7] . Absence of diffusion in certain random lattices[J]. Phys Rev, 1958, 109(5): 1492-1505.
[8] . Lattice symmetry applied in transfer-matrix methods for photonic crystals[J]. J Appl Phys, 2003, 15(2): 811-821.
[9] . Photonic band structures solved by a plane-wave based transfer-matrix method[J]. Phys Rev E, 2003, 67(4): 0466071-11.
[10] . Surface and bulk acoustic waves in two-dimensional phononic crystal consisting of materials with general anisotropy[J]. Phys Rev B, 2004, 69(9): 094301.
[11] . Phononic crystal with low filling fraction and absolute acoustic band gap in the audible frequency range: A theoretical and experimental study[J]. Phys Rev E, 2002, 65(5): 056608.
[12] . Splitting and tuning characteristics of the point defect modes in two-dimensional photonic crystals[J]. Phys Rev E, 2004, 69(6): 066609.
[13] . Amplification and localization behaviors of obliquely incident light in randomly layered media[J]. Phys Rev B, 1997, 55(21): 14230-14235.
[14] . Field expulsion and reconfiguration in polaritonic photonic crystals[J]. Phys Rev Lett, 2003, 90(19): 196402.
[15] . Phonon-polariton excitations in photonic crystals[J]. Phys Rev B, 2003, 68(7): 075209.
[16] BIENSTMAN P, BAETS R. Optical modelling of photonic crystals and VCSELs using eigenmode expansion and perfectly matched layers[J]. Opt Quantum Electron, 2001, 33(4/5): 327-341.
[17] . Rigorous and efficient optical VCSEL model based on vectorial eigenmode expansion and perfectly matchedlayers[J]. IEE Proc-Optoelectron, 2002, 149(4): 161-165.
[20] . Effects of disorder on wave propagation in two-dimensional photonic crystals[J]. Phys Rev E, 1999, 60(5): 6118-6127.
[21] . Influence of random errors on the characteristics of typical 2D photonic crystal microcavity[J]. Appl Phys B, 2007, 88(2): 231-236.
郑改革, 史林兴, 王海娇, 蒋立勇, 李相银. 介质层厚度无序对Bragg微腔模式的影响[J]. 光子学报, 2009, 38(3): 587. ZHENG Gai-ge, SHI Lin-xing, WANG Hai-jiao, JIANG Li-yong, LI Xiang-yin. Effects of Disorder on Mode of Photonic Crystal Bragg Cavity[J]. ACTA PHOTONICA SINICA, 2009, 38(3): 587.