[1] NAKAMURA S.GaN growth using GaN buffer layer[J]. Applied Physics, 1991, 3010(A): 1705–1707.
[2] NAKAMURA S, MUKAI T, SENOH M.In situ monitoring and hall measurements of GaN with GaN buffer layers[J]. Applied Physics, 1992, 71(11): 5543–5549.
[3] MURPHY T.Maximum spectral luminous efficacy of white light[J].Journal Applied Physics,2012, 111(10): 104909.
[4] ZUKAUSKAS A, SHUR M, GASKA R.Introduction to solid-state lighting[M]. Chemical Industry Press, 2004: 28-29.
[5] MA Long, YI Xiao-yan, GUO Jin-xia.Study on key technology of high power GaNLED[J]. Journal of Semiconductors,2005, 26(z1): 165-169.
[6] ZUKAUSKAS A, SHUR M, GASKA R. Introduction to solid-state lighting [M]. Chemical Industry Press, 2004(12): 79-80.
[7] SU Ping, XU Zhen-feng, GU Hua-rong. Photonic crystal light-emitting diodes[J].Optical Technique,2007,33(4): 505-509.
[8] WIERE J J, KRAMES MR, EPLER J E,et al. InGaN/GaN quantum well heterostructure light emitting diodes employing photonic crystal structures[J].Applied Physics Letter, 2004, 84(19): 3885-3887.
[9] ORITA K, TAMURA S, TAKIZAWA T,et al. High extraction efficiency blue light emitting diode using extended pitch photonic crystal [J]. Applied Physics, 2004, 43: 5809-5813.
[10] ODER T N, SHAKYA J, LIN J Y, et al. Nitride photonic crystals[J]. Applied PhysicsLetter, 2003, 83(6): 1231-1233.
[11] KIM D H, CHO C O, ROH Y G, et al. Enhanced light extraction from GaN based light emitting diodes with holographically generated two2dimensional photonic crystal patterns[J]. Applied Physics Letter, 2005, 87(20): 203508-203510.
[12] HAN D S, KIM J Y, NA S I.Improvement of light extraction efficiency of flip-chip light-emitting diode by texturing the bottom side surface of sapphire substrate[J].IEEE Photonics Technology Letters, 2006, 18(13): 1406-1408.
[13] YABLONOVITCH E.Inhibited spontaneous emission in solid-state physics and electronics[J].Physics Review Letter, 1987, 58(20): 2059-2062.
[14] JOHN S. Strong localization of photons in certain disordered dielectric superlattices[J].Physics Review Letter, 1987, 58(23): 2468-2489.
[15] SUKHOIVANOV I A, GURYEV I V.Photonic crystals physics and practical modeling [M].Springer, 2009.
[16] YEE K S.Numerical solution of initial boundary value problems involving Maxwell’s equations in isotropic media[J].IEEE Transactions Antennas Propagation, 1966, AP-14(3): 302-307.
[17] GE De-biao, YAN Yu-bo. FDTD method for electromagnet waves [M].Xidian University Press,2005.
[18] GE De-biao, YAN Yu-bo. FDTD method for electromagnet waves [M].Xidian University Press,2005.
[19] AURéLIEN D, TETSUO F, RAJAT S.Photonic-crystal GaN light-emitting diodes with tailored guided modes distribution[J]. Applied Physics Letter, 2006, 88(6): 061124.
[20] ODER T N, SHAKYA J, LIN J Y.III-nitride photonic crystals[J].Applied Physics Letters, 2003, 83(6): 1231-1233.
[21] BENISTY H, NEVE H D, WEISBUCH C.Impact of planar microcavity effects on light extraction—part i: basic concepts and analytical trends[J].IEEE Journal of Quantum Electronics, 1998, 34(9): 1612-1631.
[22] BENISTY H, NEVE H D, WEISBUCH C.Impact of planar microcavity effects on light extraction—part II: Selected exact simulations and role of photon recycling[J].IEEE Journal of Quantum Electronics, 1998, 34(9): 1632-1643.
[23] HUANG Sai-jun, YE Zhi-cheng, LU Jian-gang,et al. Position dependence of extraction efficiency in organic light-emitting diodes with photonic crystal structure[J].Chinese Optics Letters, 2013, 11(6): 062302.
[24] SNYDER A W, LOVE J.Optical waveguide theory[M].Springer, 1993.
[25] LITTLE B E, HUANG W P.Coupled-mode theory for optical waveguides [J].Progress in Electromagnet Research, 1995, 10: 217.
[26] SANG Tian, CAI Tuo,LIU Xiao-chun. Study on grating spectrum by one-dimension sub-wavelength effective medium theory[J]. Laser & Optoelectronics Progress, 2011, 48(10): 100501.