Efficient second harmonic generation between photonic and plasmonic modes in a tunable transparent conducting oxide waveguide

Fu Xu; Yu Sun

doi:10.3788/COL201614.031901

Journals >Chinese Optics Letters >Volume 14 >Issue 3 >Page 031901 > Article

Chinese Optics Letters
Vol. 14, Issue 3, 031901 (2016)

Efficient second harmonic generation between photonic and plasmonic modes in a tunable transparent conducting oxide waveguide

Fu Xu and Yu Sun^*

Author Affiliations

School of Information Science and Technology, Beijing Forestry University, Beijing 100083, China

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DOI: 10.3788/COL201614.031901 Cite this Article Set citation alerts

Fu Xu, Yu Sun. Efficient second harmonic generation between photonic and plasmonic modes in a tunable transparent conducting oxide waveguide[J]. Chinese Optics Letters, 2016, 14(3): 031901 Copy Citation Text

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Abstract

Efficient second harmonic generation (SHG) in a nonlinear transparent conducting oxide (TCO) stripe waveguide that incorporates an organic polymer is theoretically investigated. The phase match condition between the fundamental photonic mode at the second harmonic and the fundamental long-range plasmonic mode at the fundamental frequency can be satisfied by dynamically or statically tuning the free carrier concentration of the TCO. The theoretically generated signal reaches its maximum up to 56.4 mW at a propagation distance of 34.8 μm for a pumping power of 1 W. The corresponding normalized conversion efficiency of the phase-matched SHG is up to

4.65 \times 10^{3} W^{1} {cm}^{2}

ε (ω) = ε_{\infty} - \frac{ω_{p}^{2}}{ω (ω + i Γ_{p})} + \frac{f_{1} ω_{1}^{2}}{(ω_{1}^{2} - ω^{2} - i ω Γ_{1})},

(1)

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ω_{p}^{2} = \frac{N e^{2}}{ε_{0} m^{*}},

(2)

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κ_{1} = ε_{0} \iint [χ^{(2)} : E_{SH} (x, y) E_{FF}^{*} (x, y) \cdot E_{FF} (x, y)] d x d y κ_{2} = ε_{0} \iint [χ^{(2)} : E_{FF} (x, y) E_{FF} (x, y) \cdot E_{SH} (x, y)] d x d y,

(3)

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\frac{\partial A_{FF}}{\partial z} = - \frac{α_{FF}}{2} A_{FF} + i \frac{ω}{4} κ_{1} A_{FF}^{*} A_{SH} \exp (i Δ β z) \frac{\partial A_{SH}}{\partial z} = - \frac{α_{SH}}{2} A_{SH} + i \frac{ω}{4} κ_{2}^{*} A_{FF} A_{FF} \exp (- i Δ β z),

(4)

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Fu Xu, Yu Sun. Efficient second harmonic generation between photonic and plasmonic modes in a tunable transparent conducting oxide waveguide[J]. Chinese Optics Letters, 2016, 14(3): 031901

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