2021
DOI: 10.1038/s41598-021-99270-4
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Surface plasmon induced spot and line formation at interfaces of ITO coated LiNbO3 slabs and gigantic nonlinearity

Abstract: Remarkable spots and lines were clearly observed at the two interfaces of indium-tin-oxide coated Z-cut Fe-doped lithium noibate plates under illumination by milliwatt continuous-wave laser light; this occurred because of the visible surface plasmons (SPs) supported by the promising non-metal plasmonic system. The intriguing observations are here explained via the SP-strengthened nonlinear effect, through consideration of the electrostatic field (which is comparable to the atomic field) and its large gradient;… Show more

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“…For example, ITO has been shown to exhibit an extremely large ultrafast nonlinearity at the ENZ point [ 58 ], providing an optically induced enhancement to changes in the refractive index. Moreover, surface plasmons have been observed on ITO-coated structures, producing a strong nonlinearity and a large refractive index change within a half-wavelength range [ 59 ]. Hence, the linear photonic characterisation of TCO dispersion trends and ENZ behaviour we detail here provide a fundamental basis for also exploring nonlinear optical responses of TCOs.…”
Section: Discussionmentioning
confidence: 99%
“…For example, ITO has been shown to exhibit an extremely large ultrafast nonlinearity at the ENZ point [ 58 ], providing an optically induced enhancement to changes in the refractive index. Moreover, surface plasmons have been observed on ITO-coated structures, producing a strong nonlinearity and a large refractive index change within a half-wavelength range [ 59 ]. Hence, the linear photonic characterisation of TCO dispersion trends and ENZ behaviour we detail here provide a fundamental basis for also exploring nonlinear optical responses of TCOs.…”
Section: Discussionmentioning
confidence: 99%