Open AccessScattering Forces from the Curl of the Spin Angular Momentum of a Light Field
Author(s) -
Silvia Albaladejo,
Manuel I. Marqués,
Marine Laroche,
J. J. Sáenz
Publication year - 2009
Publication title -
physical review letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.688
H-Index - 673
eISSN - 1079-7114
pISSN - 0031-9007
DOI - 10.1103/physrevlett.102.113602
Subject(s) - physics , poynting vector , classical mechanics , curl (programming language) , scattering , angular momentum , pressure gradient force , angular momentum of light , helicity , quantum electrodynamics , field (mathematics) , momentum (technical analysis) , spin (aerodynamics) , angular momentum coupling , mechanics , total angular momentum quantum number , quantum mechanics , magnetic field , computer science , pure mathematics , economics , thermodynamics , programming language , mathematics , finance
International audienceLight forces on small (Rayleigh) particles are usually described as the sum of two terms: the dipolar or gradient force and the scattering or radiation pressure force. The scattering force is traditionally considered proportional to the Poynting vector, which gives the direction and magnitude of the momentum flow. However, as we will show, there is an additional nonconservative contribution to the scattering force arising in a light field with nonuniform helicity. This force is shown to be proportional to the curl of the spin angular momentum of the light field. The relevance of the spin force is illustrated in the simple case of a 2D field geometry arising in the intersection region of two standing waves
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