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Dynamics of an optically bound structure made of particles of unequal sizes. Opt. Lett., 42, 1436-1439 (2017201720172017).\par \par Non-spherical gold nanoparticles trapped in optical tweezers: shape matters. Opt. Express, 23, 8179-8189 (2015201520152015).\par \par Three-Dimensional Optical Trapping of a Plasmonic Nanoparticle using Low Numerical Aperture Optical Tweezers. Sci. Rep., 5, 8106 (2015201520152015).\par \par Experimental demonstration of optical transport, sorting and self-arrangement using a `tractor beam'. Nature Photon., 7, 123-127 (2013201320132013).\par \par Dynamic size tuning of multidimensional optically boundmatter. Appl. Phys. Lett., 99, 101105 (2011201120112011).\par \par Static and dynamic behavior of two optically boundmicroparticles in a standing wave. Opt. Express, 19, 19613?19626 (2011201120112011).\par \par Experimental and theoretical determination of opticalbinding forces. Opt. Express, 18, 25389?25402 (2010201020102010).\par \par Extreme axial optical force in a standing wave achieved by optimized object shape. Opt. Express, 17, 10472?10488 (2009200920092009).\par \par Longitudinal optical binding of several sphericalparticles studied by the coupled dipole method. J. Opt. A: Pure Appl. Opt., 11, 034009 (2009200920092009).\par \par Long-range one-dimensional longitudinal opticalbinding. Phys. Rev. Lett., 101, 143601 (2008200820082008).\par \par Analytical description of longitudinal optical binding of two spherical nanoparticles. J. Opt. A: Pure Appl. Opt., 9, S215?S220 (2007200720072007).\par \par Analysis of optical binding in one dimension. Appl. Phys. B, 84, 149?156 (2006200620062006).\par \par Optical forces acting on Rayleigh particle placed into interference field. Opt. Commun., 240, 401-415 (2004200420042004).\par \par }