Mixing the Light Spin with Plasmon Orbit by Nonlinear Light-Matter Interaction in Gold

Transformation of light carrying spin angular momentum (SAM) to optical field vortices carrying orbital angular momentum (OAM) has been of wide interest in recent years. The interactions between two optical fields, each carrying one of those degrees of freedom, and furthermore, the transfer of the r...

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Published in	Physical review. X Vol. 9; no. 2; p. 021031
Main Authors	Spektor, G., Kilbane, D., Mahro, A. K., Hartelt, M., Prinz, E., Aeschlimann, M., Orenstein, M.
Format	Journal Article
Language	English
Published	College Park American Physical Society 15.05.2019
Subjects	Absorptivity Angular momentum Circular polarization Earth axis Electron clouds Electron emission Electron transitions Electrons Engraving Excitation Excitation spectra Gold Light Light beams Photoelectric emission Photon absorption Photons Polaritons Spatial distribution Spectroscopy Spinning (materials) Subtraction Surface chemistry Surface waves Vortices
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Abstract	Transformation of light carrying spin angular momentum (SAM) to optical field vortices carrying orbital angular momentum (OAM) has been of wide interest in recent years. The interactions between two optical fields, each carrying one of those degrees of freedom, and furthermore, the transfer of the resulting angular momentum product to matter are seldom discussed. Here, we measure the interaction between 3D light carrying axial SAM and 2D plasmon-polariton vortices carrying high-order transverse OAM. The interaction is mediated by two-photon absorption within a gold surface, imprinting the resulting angular-momentum mixing into matter by excitation of electrons that are photo-emitted into vacuum. Interestingly, the spatial distribution of the emitted electrons carries the signature of a subtraction of the spin from the orbit angular momenta. We show experimentally and theoretically that the absorptive nature of this interaction leads to both single and double photon-plasmon angular momentum mixing processes by one- and two- photon interactions. Our results demonstrate high order angular momenta light-matter interactions, provide a glimpse into specific electronic excitation routes, and may be applied in future electronic sources and coherent control.
AbstractList	Transformation of light carrying spin angular momentum (SAM) to optical field vortices carrying orbital angular momentum (OAM) has been of wide interest in recent years. The interactions between two optical fields, each carrying one of those degrees of freedom, and furthermore, the transfer of the resulting angular momentum product to matter are seldom discussed. Here, we measure the interaction between 3D light carrying axial SAM and 2D plasmon-polariton vortices carrying high-order transverse OAM. The interaction is mediated by two-photon absorption within a gold surface, imprinting the resulting angular-momentum mixing into matter by excitation of electrons that are photo-emitted into vacuum. Interestingly, the spatial distribution of the emitted electrons carries the signature of a subtraction of the spin from the orbit angular momenta. We show experimentally and theoretically that the absorptive nature of this interaction leads to both single and double photon-plasmon angular momentum mixing processes by one- and two- photon interactions. Our results demonstrate high order angular momenta light-matter interactions, provide a glimpse into specific electronic excitation routes, and may be applied in future electronic sources and coherent control.
ArticleNumber	021031
Author	Spektor, G. Kilbane, D. Aeschlimann, M. Prinz, E. Hartelt, M. Mahro, A. K. Orenstein, M.
Author_xml	– sequence: 1 givenname: G. surname: Spektor fullname: Spektor, G. – sequence: 2 givenname: D. surname: Kilbane fullname: Kilbane, D. – sequence: 3 givenname: A. K. surname: Mahro fullname: Mahro, A. K. – sequence: 4 givenname: M. surname: Hartelt fullname: Hartelt, M. – sequence: 5 givenname: E. surname: Prinz fullname: Prinz, E. – sequence: 6 givenname: M. surname: Aeschlimann fullname: Aeschlimann, M. – sequence: 7 givenname: M. surname: Orenstein fullname: Orenstein, M.
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SubjectTerms	Absorptivity Angular momentum Circular polarization Earth axis Electron clouds Electron emission Electron transitions Electrons Engraving Excitation Excitation spectra Gold Light Light beams Photoelectric emission Photon absorption Photons Polaritons Spatial distribution Spectroscopy Spinning (materials) Subtraction Surface chemistry Surface waves Vortices
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Title	Mixing the Light Spin with Plasmon Orbit by Nonlinear Light-Matter Interaction in Gold
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