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W2794536313 abstract "In this paper, we demonstrate that phonons and photons of different momenta can be confined and interact with each other within the same nanostructure. The interaction between confined phonons and confined photons in silicon resonator arrays is observed by means of Raman scattering. The Raman spectra from large arrays of dielectric silicon resonators exhibited Raman enhancement accompanied with a downshift and broadening. The analysis of the Raman intensity and line shape using finite-difference time-domain simulations and a spatial correlation model demonstrated an interaction between photons confined in the resonators and phonons confined in highly defective regions prompted by the structuring process. It was shown that the Raman enhancement is due to collective lattice resonance inducing field confinement in the resonators, while the spectra downshift and broadening are signatures of the relaxation of the phonon wave vector due to phonon confinement in defective regions located in the surface layer of the Si resonators. We found that as the resonators increase in height and their shape becomes cylindrical, the amplitude of their coherent oscillation increases and hence their ability to confine the incoming electric field increases." @default.
W2794536313 created "2018-04-06" @default.
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W2794536313 date "2018-03-30" @default.
W2794536313 modified "2023-10-04" @default.
W2794536313 title "Interaction between confined phonons and photons in periodic silicon resonators" @default.
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W2794536313 cites W1954787516 @default.
W2794536313 cites W1964460564 @default.
W2794536313 cites W1967084507 @default.
W2794536313 cites W1968022893 @default.
W2794536313 cites W1968571306 @default.
W2794536313 cites W1970320967 @default.
W2794536313 cites W1985464281 @default.
W2794536313 cites W1987880468 @default.
W2794536313 cites W1989397085 @default.
W2794536313 cites W1990675873 @default.
W2794536313 cites W1991485340 @default.
W2794536313 cites W2002848209 @default.
W2794536313 cites W2007482718 @default.
W2794536313 cites W2008391403 @default.
W2794536313 cites W2011079548 @default.
W2794536313 cites W2013989481 @default.
W2794536313 cites W2014140001 @default.
W2794536313 cites W2014623839 @default.
W2794536313 cites W2016333050 @default.
W2794536313 cites W2017510563 @default.
W2794536313 cites W2017659411 @default.
W2794536313 cites W2018009121 @default.
W2794536313 cites W2019661055 @default.
W2794536313 cites W2022375783 @default.
W2794536313 cites W2023730471 @default.
W2794536313 cites W2026677211 @default.
W2794536313 cites W2026939316 @default.
W2794536313 cites W2028590804 @default.
W2794536313 cites W2029055957 @default.
W2794536313 cites W2032694420 @default.
W2794536313 cites W2036831194 @default.
W2794536313 cites W2037432979 @default.
W2794536313 cites W2037497443 @default.
W2794536313 cites W2037941388 @default.
W2794536313 cites W2039165504 @default.
W2794536313 cites W2041613716 @default.
W2794536313 cites W2046649173 @default.
W2794536313 cites W2050260930 @default.
W2794536313 cites W2051307234 @default.
W2794536313 cites W2051646846 @default.
W2794536313 cites W2051853576 @default.
W2794536313 cites W2057761231 @default.
W2794536313 cites W2064069623 @default.
W2794536313 cites W2065177252 @default.
W2794536313 cites W2065652668 @default.
W2794536313 cites W2066932614 @default.
W2794536313 cites W2072981172 @default.
W2794536313 cites W2074104878 @default.
W2794536313 cites W2074398593 @default.
W2794536313 cites W2077957564 @default.
W2794536313 cites W2081157665 @default.
W2794536313 cites W2081217877 @default.
W2794536313 cites W2081237429 @default.
W2794536313 cites W2088897475 @default.
W2794536313 cites W2091365126 @default.
W2794536313 cites W2093309699 @default.
W2794536313 cites W2102680086 @default.
W2794536313 cites W2123878122 @default.
W2794536313 cites W2136195064 @default.
W2794536313 cites W2137073862 @default.
W2794536313 cites W2138501822 @default.
W2794536313 cites W2297566201 @default.
W2794536313 cites W2299216015 @default.
W2794536313 cites W2321076646 @default.
W2794536313 cites W2511335461 @default.
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W2794536313 doi "https://doi.org/10.1103/physrevb.97.094308" @default.
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