Spectrally and spatially resolved smith-purcell radiation in plasmonic crystals with short-range disorder

I. Kaminer; S. E. Kooi; R. Shiloh; B. Zhen; Y. Shen; J. J. López; R. Remez; S. A. Skirlo; Y. Yang; J. D. Joannopoulos; A. Arie; M. Soljacic

doi:10.1103/PhysRevX.7.011003

Spectrally and spatially resolved smith-purcell radiation in plasmonic crystals with short-range disorder

I. Kaminer^*, S. E. Kooi, R. Shiloh, B. Zhen, Y. Shen, J. J. López, R. Remez, S. A. Skirlo, Y. Yang, J. D. Joannopoulos, A. Arie, M. Soljacic

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

93 Scopus citations

Abstract

Electrons interacting with plasmonic structures can give rise to resonant excitations in localized plasmonic cavities and to collective excitations in periodic structures. We investigate the presence of resonant features and disorder in the conventional Smith-Purcell effect (electrons interacting with periodic structures) and observe the simultaneous excitation of both the plasmonic resonances and the collective excitations. For this purpose, we introduce a new scanning-electron-microscope-based setup that allows us to probe and directly image new features of electron-photon interactions in nanophotonic structures like plasmonic crystals with strong disorder. Our work creates new possibilities for probing nanostructures with free electrons, with potential applications that include tunable sources of short-wavelength radiation and plasmonic-based particle accelerators.

Original language	English
Article number	011003
Journal	Physical Review X
Volume	7
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevX.7.011003
State	Published - 17 Jan 2017
Externally published	Yes

Keywords

Optics
Plasmonics

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10.1103/PhysRevX.7.011003

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title = "Spectrally and spatially resolved smith-purcell radiation in plasmonic crystals with short-range disorder",

abstract = "Electrons interacting with plasmonic structures can give rise to resonant excitations in localized plasmonic cavities and to collective excitations in periodic structures. We investigate the presence of resonant features and disorder in the conventional Smith-Purcell effect (electrons interacting with periodic structures) and observe the simultaneous excitation of both the plasmonic resonances and the collective excitations. For this purpose, we introduce a new scanning-electron-microscope-based setup that allows us to probe and directly image new features of electron-photon interactions in nanophotonic structures like plasmonic crystals with strong disorder. Our work creates new possibilities for probing nanostructures with free electrons, with potential applications that include tunable sources of short-wavelength radiation and plasmonic-based particle accelerators.",

keywords = "Optics, Plasmonics",

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doi = "10.1103/PhysRevX.7.011003",

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AU - Kaminer, I.

AU - Kooi, S. E.

AU - Shiloh, R.

AU - Zhen, B.

AU - Shen, Y.

AU - López, J. J.

AU - Remez, R.

AU - Skirlo, S. A.

AU - Yang, Y.

AU - Joannopoulos, J. D.

AU - Arie, A.

AU - Soljacic, M.

PY - 2017/1/17

Y1 - 2017/1/17

N2 - Electrons interacting with plasmonic structures can give rise to resonant excitations in localized plasmonic cavities and to collective excitations in periodic structures. We investigate the presence of resonant features and disorder in the conventional Smith-Purcell effect (electrons interacting with periodic structures) and observe the simultaneous excitation of both the plasmonic resonances and the collective excitations. For this purpose, we introduce a new scanning-electron-microscope-based setup that allows us to probe and directly image new features of electron-photon interactions in nanophotonic structures like plasmonic crystals with strong disorder. Our work creates new possibilities for probing nanostructures with free electrons, with potential applications that include tunable sources of short-wavelength radiation and plasmonic-based particle accelerators.

AB - Electrons interacting with plasmonic structures can give rise to resonant excitations in localized plasmonic cavities and to collective excitations in periodic structures. We investigate the presence of resonant features and disorder in the conventional Smith-Purcell effect (electrons interacting with periodic structures) and observe the simultaneous excitation of both the plasmonic resonances and the collective excitations. For this purpose, we introduce a new scanning-electron-microscope-based setup that allows us to probe and directly image new features of electron-photon interactions in nanophotonic structures like plasmonic crystals with strong disorder. Our work creates new possibilities for probing nanostructures with free electrons, with potential applications that include tunable sources of short-wavelength radiation and plasmonic-based particle accelerators.

KW - Optics

KW - Plasmonics

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Spectrally and spatially resolved smith-purcell radiation in plasmonic crystals with short-range disorder

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