[1] A Ashkin, J M Dziedzic, J E Bjorkholm, et al. Observation of a single-beam gradient force optical trap for dielectric particles. Opt Lett, 11, 288-290(1986).
[2] E A Abbondanzieri, W J Greenleaf, J W Shaevitz, et al. Direct observation of base-pair stepping by RNA polymerase. Nature, 438, 460-465(2005).
[3] J D Wen, L Lancaster, C Hodges, et al. Following translation by single ribosomes one codon at a time. Nature, 452, 598-603(2008).
[4] Shubin Yan, Yu Zhao, Dechao Yang, et al. Optical tweezers based on near-field optical theory. Infrared and Laser Engineering, 44, 1034-1041(2015).
[5] Shubo Cheng, Liang Wu, Shaohua Tao. Optical trapping characteristics of a metal microsphere coated with thick dielectric shell in the focused optical field. Infrared and Laser Engineering, 45, 0621002(2016).
[6] L Allen, M W Beijersbergen, R J C Spreeuw, et al. Orbital angular momentum of light and the transformation of Laguerre-Gaussian laser modes. Phys Rev A, 45, 8185(1992).
[7] Jingchao Zhang, Yanying Zhu, Hongxing Dou, et al. Analysis of radius effect on optical rotation of birefringent crystal particles. Infrared and Laser Engineering, 41, 155-159(2012).
[8] Xueyun Qin, Liuhao Zhu, Yuping Tai, et al. Properties of optical vortex lattice generated via multiple plane wave interference. Acta Optica Sinica, 41, 2126001(2021).
[9] T T Ngo, Q Zhang, R Zhou, et al. Asymmetric unwrapping of nucleosomes under tension directed by DNA local flexibility. Cell, 160, 1135-1144(2015).
[10] R Reimann, M Doderer, E Hebestreit, et al. GHz rotation of an optically trapped nanoparticle in vacuum. Phys Rev Lett, 121, 033602(2018).
[11] G Rui, Y Li, S Zhou, et al. Optically induced rotation of Rayleigh particles by arbitrary photonic spin. Photonics Res, 7, 69-79(2019).
[12] D J Armstrong, T A Nieminen, A B Stilgoe, et al. Swimming force and behavior of optically trapped micro-organisms. Optica, 7, 989-994(2020).
[13] V Garcés-Chávez, D McGloin, H Melville, et al. Simultaneous micromanipulation in multiple planes using a self-reconstructing light beam. Nature, 419, 145-147(2002).
[14] A Jesacher, S Fürhapter, C Maurer, et al. Reverse orbiting of microparticles in optical vortices. Opt Lett, 31, 2824-2826(2006).
[15] E R Shanblatt, D G Grier. Extended and knotted optical traps in three dimensions. Opt Express, 19, 5833-5838(2011).
[16] J A Rodrigo, T Alieva, E Abramochkin, et al. Shaping of light beams along curves in three dimensions. Opt Express, 21, 20544-20555(2013).
[17] J A Rodrigo, T Alieva. Freestyle 3D laser traps: Tools for studying light-driven particle dynamics and beyond. Optica, 2, 812-815(2015).
[18] X Z Li, H X Ma, H Zhang, et al. Is it possible to enlarge the trapping range of optical tweezers via a single beam?. Appl Phys Lett, 114, 081903(2019).
[19] J A Rodrigo, M Angulo, T Alieva. All-optical motion control of metal nanoparticles powered by propulsion forces tailored in 3D trajectories. Photonics Res, 9, 1-12(2021).
[20] L Li, C Chang, X Yuan, et al. Generation of optical vortex array along arbitrary curvilinear arrangement. Opt Express, 26, 9798-9812(2018).
[21] Y Zhang, Y Xue, Z Zhu, et al. Theoretical investigation on asymmetrical spinning and orbiting motions of particles in a tightly focused power-exponent azimuthal-variant vector field. Opt Express, 26, 4318-4329(2018).
[22] H I Sztul, R R Alfano. The Poynting vector and angular momentum of Airy beams. Opt Express, 16, 9411-9416(2008).