[1] G A Siviloglou, D N Christodoulides. Accelerating finite energy Airy beams. Optics Letters, 32, 979-981(2007).

[2] G A Siviloglou, J Broky, A Dogariu, et al. Observation of accelerating Airy beams. Physical Review Letters, 99, 213901(2007).

[3] D Abdollahpour, S Suntsov, D G Papazoglou, et al. Spatiotemporal Airy light bullets in the linear and nonlinear regimes. Physical Review Letters, 105, 253901(2010).

[4] J Baumgartl, M Mazilu, K Dholakia. Optically mediated particle clearing using Airy wavepackets. Nature Photonics, 2, 675-678(2008).

[5] P Polynkin, M Kolesik, J V Moloney, et al. Curved plasma channel generation using ultraintense Airy beams. Science, 324, 229-232(2009).

[6] P Rose, F Diebel, M Boguslawski, et al. Airy beam induced optical routing. Applied Physics Letters, 102, 101101(2013).

[7] N Wiersma, N Marsal, M Sciamanna, et al. All-optical interconnects using Airy beams. Optics Letters, 39, 5997-6000(2014).

[8] Y Liang, Y Hu, D Song, et al. Image signal transmission with Airy beams. Optics Letters, 40, 5686-5689(2015).

[9] J X Li, W P Zang, J G Tian. Analysis of electron capture acceleration channel in an Airy beam. Optics Letters, 35, 3258-3260(2010).

[10] Y Hu, J Nie, K Sun, et al. Air filamentation characteristics of ring Airy femtosecond laser beam with different background energies. Infrared and Laser Engineering, 46, 0806005(2017).

[11] I Kaminer, M Segev, D N Christodoulides. Self-accelerating self-trapped optical beams. Physical Review Letters, 106, 213903(2011).

[12] L Zhang, X Zhang, D Pierangeli, et al. Synchrotron resonant radiation from nonlinear self-accelerating pulses. Optics Express, 26, 14710-14717(2018).

[13] Y Lamhot, A Barak, O Peleg, et al. Self-trapping of optical beams through thermophoresis. Physical Review Letters, 105, 163906(2010).

[14] D N Christodoulides, M I Carvalho. Bright, dark, and gray spatial soliton states in photorefractive media. Journal of the Optical Society of America B, 12, 1628-1633(1995).

[15] W Chen, K Lu, J Hui, et al. Localized surface waves at the interface between linear dielectric and biased centrosymmetric photorefractive crystals. Optics Express, 21, 15595-15602(2013).

[16] Y Fattal, A Rudnick, D M Marom. Soliton shedding from Airy pulses in Kerr media. Optics Express, 19, 17298-17307(2011).

[17] Y Hu, S Huang, P Zhang, et al. Persistence and breakdown of Airy beams driven by an initial nonlinearity. Optics Letters, 35, 3952-3954(2010).

[18] B Wen, Y Deng, S Zhang, et al. Study on the evolution of Airy beam in PT symmetric medium. Infrared and Laser Engineering, 49, 20200165(2020).

[19] I M Allayarov, E N Tsoy. Dynamics of Airy beams in nonlinear media. Physical Review A, 90, 023852(2014).

[20] Z K Wu, P Li, Y Z Gu. Propagation dynamics of finite-energy Airy beams in nonlocal nonlinear media. Frontiers of Physics, 12, 1-6(2017).

[21] T Bouchet, N Marsal, M Sciamanna, et al. Solitonic characteristics of Airy beam nonlinear propagation. Physical Review A, 97, 051801(2018).

[22] Y Zhang, M Belić, Z Wu, et al. Soliton pair generation in the interactions of Airy and nonlinear accelerating beams. Optics Letters, 38, 4585-4588(2013).

[23] Y Zhang, M R Belić, H Zheng, et al. Interactions of Airy beams, nonlinear accelerating beams, and induced solitons in Kerr and saturable nonlinear media. Optics Express, 22, 7160-7171(2014).

[24] M Zhang, G Huo, H Zhong, et al. Interactions between self-accelerating beams in photorefractive media. Optics Express, 25, 22104-22112(2017).

[25] M Zhang, T Zhang, G Huo, et al. Dynamical behavior of self-accelerating beams in LiNbO₃ crystal with background illumination. Applied Physics B, 124, 1-8(2018).

[26] F Diebel, B M Bokić, D V Timotijević, et al. Soliton formation by decelerating interacting Airy beams. Optics Express, 23, 24351-24361(2015).

[27] M Shen, J Gao, L Ge. Solitons shedding from Airy beams and bound states of breathing Airy solitons in nonlocal nonlinear media. Scientific Reports, 5, 1-5(2015).

[28] M Shen, W Li, R K Lee. Control on the anomalous interactions of Airy beams in nematic liquid crystals. Optics Express, 24, 8501-8511(2016).

[29] M Shen, L Wu, M Gao, et al. Incoherent interactions of Airy beams in nonlocal nonlinear media. Journal of Physics B:Atomic, Molecular and Optical Physics, 51, 165401(2018).

[30] K Zhan, Z Yang, B Liu, et al. Propagations of Airy beams and nonlinear accelerating optical beams in photorefractive crystals with asymmetric nonlocality. Annalen der Physik, 530, 1800033(2018).

[31] K Zhan, Z Yang, R Jiao, et al. Controllable interaction of Airy beams via initial launch angle in Kerr media. Optics Communications, 432, 49-53(2019).

[32] Q Jiang, Y Su, Z Ma, et al. Propagation properties of Airy-Gaussian beams in centrosymmetric photorefractive media. Journal of Modern Optics, 65, 2243-2249(2018).

[33] L Jin, X Zhang, Y Xiong, et al. Propagation evolution of Airy Gaussian vortex beam through right-handed and left-handed media. Infrared and Laser Engineering, 47, 1006007(2018).

[34] Z Cheng, X Chu, S Zhao, et al. Propagation characteristics in the far-field and evolution regular of Airy beam. Infrared and Laser Engineering, 44, 2906-2911(2015).

[35] W Chen, K Lu, J Yang, et al. Propagation dynamics of Airy beams and nonlinear accelerating beams in biased photorefractive media with quadratic electro-optic effect. Applied Physics B, 124, 1-8(2018).

[36] W Chen, D Song, Y Li, et al. Control on interaction of Airy-Gaussian beams in competing nonlinear medium. Acta Physica Sinica, 68, 094206(2019).

[37] W Chen, K Lu, J Hui, et al. Propagation and interactions of Airy-Gaussian beams in saturable nonliear medium. Acta Physica Sinica, 65, 244202(2016).

[38] W Chen, Y Ju, C Liu, et al. Generation of breathing solitons in the propagation and interactions of Airy–Gaussian beams in a cubic–quintic nonlinear medium. Chinese Physics B, 27, 114216(2018).

[39] X W Huang, Z X Deng, X Q Fu. Dynamics of finite energy Airy beams modeled by the fractional Schrödinger equation with a linear potential. Journal of the Optical Society of America B, 34, 976-982(2017).

[40] L F Zhang, X Zhang, H Z Wu, et al. Anomalous interaction of Airy beams in the fractional nonlinear Schrödinger equation. Optics Express, 27, 27936-27945(2019).

[41] W J Chen, T Wang, J Wang, et al. Dynamics of interacting Airy beams in the fractional Schrodinger equation with a linear potential. Optics Communications, 496, 127136(2021).

[42] W J Chen, C Lian, Y A Luo. Interaction of Airy beams modeled by the fractional nonlinear cubic-quintic Schrödinger equation. Physica Scripta, 96, 125256(2021).

[43] Y Xiao, P X Wang, J Zhang, et al. Controllable soliton propagation of Airy-Gaussian beams under the fractional effect. Optik, 243, 167431(2021).

[44] K Lu, T Tang, Y Zhang. One-dimensional steady-state spatial solitons in photovoltaic photorefractive materials with an external applied field. Physical Review A, 61, 053822(2000).

[45] T Zhang, W Chen, Y Mu, et al. Propagation properties of Airy-Gaussian beams in a biased photovoltaic-photorefractive crystal. Acta Photonica Sinica, 48, 1048004(2019).