[1] John S. Strong localization of photons in certain disordered dielectric superlattices[J]. Physical Review Letters, 58, 2486-2489(1987).

[2] Yablonovitch E. Inhibited spontaneous emission in solid-state physics and electronics[J]. Physical Review Letters, 58, 2059-2062(1987).

[3] Seo M K, Kang J H, Kim M K et al. Wavelength-scale photonic-crystal laser formed by electron-beam-induced nano-block deposition[J]. Optics Express, 17, 6790-6798(2009).

[4] Zhou X Y, Zhao S Y, Ma X L et al. Low vertical divergence angle and high brightness photonic crystal semiconductor laser[J]. Chinese Journal of Lasers, 44, 0201010(2017).

[5] Vlasov Y A. O'Boyle M, Hamann H F, et al. Active control of slow light on a chip with photonic crystal waveguides[J]. Nature, 438, 65-69(2005).

[6] Zhu C H, Tan C, Wang Y et al. Photonic crystal fiber high sensitivity magnetic field and temperature sensor based on surface plasma resonance effect and defect coupling[J]. Chinese Journal of Lasers, 44, 0310001(2017).

[7] Rinnerbauer V, Shen Y C, Joannopoulos J D et al. Superlattice photonic crystal as broadband solar absorber for high temperature operation[J]. Optics Express, 22, A1895-A1906(2014).

[8] Yamada N, Ijiro T, Okamoto E et al. Characterization of antireflection moth-eye film on crystalline silicon photovoltaic module[J]. Optics Express, 19, A118-A125(2011).

[9] Hendrickson J, Guo J P, Zhang B Y et al. Wideband perfect light absorber at midwave infrared using multiplexed metal structures[J]. Optics Letters, 37, 371-373(2012).

[10] Lowell D, Lutkenhaus J, George D et al. Simultaneous direct holographic fabrication of photonic cavity and graded photonic lattice with dual periodicity, dual basis, and dual symmetry[J]. Optics Express, 25, 14444-14452(2017).

[11] Lowell D, Hassan S, Adewole M et al. Holographic fabrication of graded photonic super-crystals using an integrated spatial light modulator and reflective optical element laser projection system[J]. Applied Optics, 56, 9888-9891(2017).

[12] Hassan S, Lowell D, Lin Y K. High light extraction efficiency into glass substrate in organic light-emitting diodes by patterning the cathode in graded superlattice with dual periodicity and dual basis[J]. Journal of Applied Physics, 121, 233104(2017).

[13] Hassan S, Lowell D, Adewole M et al. Extraordinary light-trapping enhancement in silicon solar cell patterned with graded photonic super-crystals[J]. Photonics, 4, 50(2017).

[14] Qi Y L, Sun X H, Wang S. Fabrication of double-periodic graded photonic crystal array[J]. Proceedings of SPIE, 10818, 108182A(2018).

[15] Liu W, Sun X H, Gao M L et al. Luneburg and flat lens based on graded photonic crystal[J]. Optics Communications, 364, 225-232(2016).

[16] Rinnerbauer V, Lausecker E, Schäffler F et al. Nanoimprinted superlattice metallic photonic crystal as ultraselective solar absorber[J]. Optica, 2, 743-746(2015).

[17] Li J S, Li Y L, He D Y et al. Design and mechanism of cost-effective and highly efficient ultrathin (0.5 μm) GaAs solar cells employing nano/micro-hemisphere surface texturing[J]. AIP Advances, 3, 032145(2013).

[18] Xiu Y H, Zhu L B, Hess D W et al. Biomimetic creation of hierarchical surface structures by combining colloidal self-assembly and Au sputter deposition[J]. Langmuir, 22, 9676-9681(2006).

[19] Subramania G, Lin S Y. Fabrication of three-dimensional photonic crystal with alignment based on electron beam lithography[J]. Applied Physics Letters, 85, 5037-5039(2004).

[20] Behera S, Sarkar S, Joseph J. Fabrication of helical photonic structures with submicrometer axial and spatial periodicities following “inverted umbrella” geometry through phase-controlled interference lithography[J]. Optics Letters, 43, 106-109(2018).

[21] Behera S, Kumar M, Joseph J. Submicrometer photonic structure fabrication by phase spatial-light-modulator-based interference lithography[J]. Optics Letters, 41, 1893-1896(2016).

[22] Behera S, Joseph J. Single-step optical realization of bio-inspired dual-periodic motheye and gradient-index-array photonic structures[J]. Optics Letters, 41, 3579-3582(2016).

[23] Lü N G[M]. Fourier optics, 243-245(2006).