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Brzobohat\'fd O, Chv\'e1tal L, Jon\'e1? A, Zem\'e1nek P. Dynamic formation of arrays of interacting optical spatial solitons under light-sheet illumination. Optics Letters, 50, 4318?4321 (2025).\par \par Svak V, Flaj?manov\'e1 J, Chv\'e1tal L, ?iler M, Jon\'e1? A, Je?ek J, Simpson SH, Zem\'e1nek P, Brzobohat\'fd O. Stochastic dynamics of optically bound matter levitated in vacuum. Optica, 8, 220?229 (2021).\par \par Brzobohat\'fd O, Chv\'e1tal L, ?iler M, Zem\'e1nek P. Complex colloidal structures with non-linear optical properties formed in an optical trap. Opt. Express, 28, 37700?37707 (2020).\par \par Brzobohat\'fd O, Chv\'e1tal L, Zem\'e1nek P. Optomechanical properties of optically self-arranged colloidal waveguides. Opt. Lett., 44, 707-710 (2019).\par \par Arzola AV, Chv\'e1tal L, J\'e1kl P, Zem\'e1nek P. Spin to orbital light momentum conversion visualized by particle trajectory. Sci. Rep., 9, 4127:1-7 (2019).\par \par Brzobohat\'fd O, Chv\'e1tal L, Jon\'e1? A, ?iler M, Ka?ka J, Je?ek J, Zem\'e1nek P. Tunable Soft-Matter Optofluidic Waveguides Assembled by Light. ACS Phot., 6, 403-410 (2019).\par \par Damkov\'e1 J, Chv\'e1tal L, Je?ek J, Oulehla J, Brzobohat\'fd O, Zem\'e1nek P. Enhancement of the `tractor-beam' pulling force on an optically bound structure. Light: Sci. Appl., 7, 17135 (2018).\par \par Gargiulo J, Violi IL, Cerrota S, Chv\'e1tal L, Cort\'e8s E, Perassi EM, Diaz F, Zem\'e1nek P, Stefani FD. Accuracy and Mechanistic Details of Optical Printing of Single Au and Ag Nanoparticles. ACS nano, 11, 9678?9688 (2017).\par \par Simpson SH, Chv\'e1tal L, Zem\'e1nek P. Synchronization of colloidal rotors through angular optical binding. Phys. Rev. A, 93, 023842 (2016).\par \par Chv\'e1tal L, Brzobohat\'fd O, Zem\'e1nek P. Binding of a pair of Au nanoparticles in a wide Gaussianstanding wave. Opt. Rev., 22, 157-161 (2015).\par \par Brzobohat\'fd O, Arzola AV, ?iler M, Chv\'e1tal L, J\'e1kl P, Simpson SH, Zem\'e1nek P. Complex rotational dynamics of multiple spheroidalparticles in a circularly polarized, dual beam trap. Opt. Express, 23, 7273-7287 (2015).\par \par Brzobohat\'fd O, ?iler M, Trojek J, Chv\'e1tal L, Kar\'e1sek V, Zem\'e1nek P. Non-spherical gold nanoparticles trapped in optical tweezers: shape matters. Opt. Express, 23, 8179-8189 (2015).\par \par Brzobohat\'fd O, ?iler M, Trojek J, Chv\'e1tal L, Kar\'e1sek V, Pat\'e1k A, Pokorn\'e1 Z, Mika F, Zem\'e1nek P. Three-Dimensional Optical Trapping of a Plasmonic Nanoparticle using Low Numerical Aperture Optical Tweezers. Sci. Rep., 5, 8106 (2015).\par \par J\'e1kl P, Arzola AV, ?iler M, Chv\'e1tal L, Volke-Sep\'falveda K, Zem\'e1nek P. Optical sorting of nonspherical and living microobjects in moving interference structures. Opt. Express, 22, 29746-29760 (2014).\par \par Arzola AV, J\'e1kl P, Chv\'e1tal L, Zem\'e1nek P. Rotation, oscillation and hydrodynamic synchronization of optically trapped oblate spheroidal microparticles. Opt. Express, 22, 16207-16221 (2014).\par \par Brzobohat\'fd O, Kar\'e1sek V, ?iler M, Chv\'e1tal L, ?i?m\'e1r T, Zem\'e1nek P. Experimental demonstration of optical transport, sorting and self-arrangement using a `tractor beam'. Nature Photon., 7, 123-127 (2013).\par \par ?iler M, Chv\'e1tal L, Zem\'e1nek P. Metallic nanoparticles in a standing wave: optical forceand heating. J. Quant. Spectrosc. Radiat. Transf., 126, 84-90 (2013).\par \par Trojek J, Chv\'e1tal L, Zem\'e1nek P. Optical alignment and confinement of an ellipsoidalnanorod in optical tweezers: a theoretical study. J. Opt. Soc. Am. A, 29, 1224?1236 (2012).\par \par }