[1] Knight J C, Birks T A, St J Russell P et al. All-silica single-mode optical fiber with photonic crystal cladding. Optics Letters, 21, 1547-1549(1996).
[2] Birks T A, Knight J C, Russell P S. Endlessly single-mode photonic crystal fiber. Optics Letters, 22, 961-963(1997).
[3] Yang T, Ding C, Ziolkowski R W et al. Circular hole ENZ photonic crystal fibers exhibit high birefringence. Optics Express, 26, 17264(2018).
[4] Ding S M, Yang S G, Yang Y et al. Interaction of acoustic phonons and photons in highly nonlinear photonic crystal fibers. Chinese Journal of Lasers, 46, 0508027(2019).
[5] Huang Y L, Zhou N N, Li Q et al. Design of all-solid W-type index fluorotellurite fibers with near-zero-flattened chromatic dispersion for optical frequency comb generation. Applied Optics, 58, 8852-8857(2019).
[6] Xu H Z, Wang X L, Huang X J et al. All-solid photonic crystal fiber for dispersion compensation over S+C+L wavelength bands. IEEE Photonics Technology Letters, 30, 1499-1502(2018).
[7] Zhang T T, Shi W H. Numerical research on ultraviolet supercontinuum generation in photonic crystal fiber. Chinese Journal of Lasers, 47, 0301012(2020).
[8] Wei W, Zhang L X, Zhang Z M et al. Design of three vortex photonic crystal fibers. Acta Optica Sinica, 39, 0906006(2019).
[9] Zhang X D, He M H, Chang M et al. Dual-cladding high-birefringence and high-nonlinearity photonic crystal fiber with As2S3 core. Optics Communications, 410, 396-402(2018).
[10] Xu H Z, Zhou C J. Highly nonlinear all-solid photonic crystal fibers with low dispersion slope. Chinese Journal of Lasers, 39, 1106001(2012).
[11] Amin M N, Faisal M. Highly nonlinear polarization-maintaining photonic crystal fiber with nanoscale GaP strips. Applied Optics, 55, 10030-10037(2016).
[12] Paul B K, Golam Moctader M, Ahmed K et al. Nanoscale GaP strips based photonic crystal fiber with high nonlinearity and high numerical aperture for laser applications. Results in Physics, 10, 374-378(2018).
[13] Liao J F, Sun J Q, Du M D et al. Highly nonlinear dispersion-flattened slotted spiral photonic crystal fibers. IEEE Photonics Technology Letters, 26, 380-383(2014).
[14] Ghunawat A K, Chandra R, Tiwari M et al. Design optimization of a highly birefringent and highly nonlinear silicon photonic crystal fiber. //Janyani V, Tiwari M, Singh G, et al. Optical and wireless technologies. Lecture notes in electrical engineering, 472, 301-308(2018).
[15] Liao J F, Huang T Y. Highly nonlinear photonic crystal fiber with ultrahigh birefringence using a nano-scale slot core. Optical Fiber Technology, 22, 107-112(2015).
[16] Li F, He M H, Zhang X D et al. Ultra-high birefringence and nonlinearity photonic crystal fiber with a nanoscale core shaped by an air slot and silicon strips. Optical Fiber Technology, 54, 102082(2020).
[17] Spano R, Galan J V, Sanchis P et al. Group velocity dispersion in horizontal slot waveguides filled by Si nanocrystals. //2008 5th IEEE International Conference on Group IV Photonics, September17-19, 2008, Cardiff, UK, 237-240(2008).
[18] Malitson I H. Interspecimen comparison of the refractive index of fused silica. Journal of the Optical Society of America, 55, 1205-1209(1965).
[19] Koos C, Jacome L, Poulton C et al. Nonlinear silicon-on-insulator waveguides for all-optical signal processing. Optics Express, 15, 5976-5990(2007).
[20] Won D J, Ramirez M O, Kang H et al. All-optical modulation of laser light in amorphous silicon-filled microstructured optical fibers. Applied Physics Letters, 91, 161112(2007).
[21] Peacock A C, Sparks J R, Healy N. Semiconductor optical fibres: progress and opportunities. Laser & Photonics Reviews, 8, 53-72(2014).