Spin photonic forces in non-reciprocal waveguides

Optical forces acting on particles - controlled by the intensity, polarization and direction of optical beams - have become an important tool in manipulation, sorting and analysis of nano/micro-particles. The nature of these forces has been well understood in reciprocal structures exhibiting time-re...

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Veröffentlicht in:	Optics express 2018-09, Vol.26 (18), p.23898-23910
Hauptverfasser:	Pendharker, Sarang, Kalhor, Farid, Van Mechelen, Todd, Jahani, Saman, Nazemifard, Neda, Thundat, Thomas, Jacob, Zubin
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container_title	Optics express
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creator	Pendharker, Sarang Kalhor, Farid Van Mechelen, Todd Jahani, Saman Nazemifard, Neda Thundat, Thomas Jacob, Zubin
description	Optical forces acting on particles - controlled by the intensity, polarization and direction of optical beams - have become an important tool in manipulation, sorting and analysis of nano/micro-particles. The nature of these forces has been well understood in reciprocal structures exhibiting time-reversal symmetries. Here, we investigate the nature of optical forces in non-reciprocal structures with non-degenerate counter-propagating modes. We consider the specific case of non-reciprocity induced via translational motion and show that the two counter-propagating modes in a moving slab-waveguide are not degenerate which results in a non-zero lateral and longitudinal force on a nanoparticle. We prove that these anomalous forces are fundamentally connected to near-field photonic spin in optical waveguides and explain their directionality using universal spin-momentum locking of evanescent waves. The presented results show that the interplay of photon spin and non-reciprocity can lead to unique avenues of controlling nanoscale optical forces on-chip.
doi_str_mv	10.1364/OE.26.023898
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title	Spin photonic forces in non-reciprocal waveguides
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