000			02134nam a22002895i 4500
001			92601
005			20240206161802.0
010			_a978-3-031-25949-4 _dcompra
090			_a92601
100			_a20231023d2023 k||y0pory50 ba
101	0		_aeng
102			_aCH
200	1		_aGeneralized Lorenz-Mie theories _bDocumento eletrónico _fby Gérard Gouesbet, Gérard Gréhan
205			_a3rd ed.
210			_aCham _cSpringer _d2023
215			_aXXXVIII, 385 p. _cil.
303			_aThis book explores generalized Lorenz-Mie theories when the illuminating beam is an electromagnetic arbitrary shaped beam relying on the method of separation of variables. Although it particularly focuses on the homogeneous sphere, the book also considers other regular particles. It discusses in detail the methods available for evaluating beam shape coefficients describing the illuminating beam. In addition it features applications used in many fields such as optical particle sizing and, more generally, optical particle characterization, morphology-dependent resonances and the mechanical effects of light for optical trapping, optical tweezers and optical stretchers. Furthermore, it provides various computer programs relevant to the content. In the last years many new developments took place so that a new edition became necessary. This new book now incorporates solutions for many more particle shapes and morphologies, various kinds of illuminating beams, and also to mechanical effects of light, whispering-gallery modes and resonances, and optical particle characterization techniques. In addition, the new book considers localized approximations, on the renewal of the finite series technique, on a new categorization of optical forces, and the study of Bessel beams, Mathieu beams, Laguerre-Gauss beams, frozen waves.
606			_aEquações de Lorenz
680			_aQA372
700			_aGouesbet _bGérard
701			_971564 _aGréhan _bGérard _4070
801		0	_aPT _gRPC
856	4		_uhttps://doi.org/10.1007/978-3-031-25949-4
942			_2lcc _cF _n0