Tunable terahertz Kerr switching based on nonlinear polarization rotation in silicon waveguide

Miaoli Mou; Hongjun Liu; Nan Huang; Qibing Sun; Zhaolu Wang

doi:10.1364/AO.53.002741

Applied Optics
Vol. 53,
Issue 12,
pp. 2741-2747
(2014)
•https://doi.org/10.1364/AO.53.002741

Tunable terahertz Kerr switching based on nonlinear polarization rotation in silicon waveguide

Miaoli Mou, Hongjun Liu, Nan Huang, Qibing Sun, and Zhaolu Wang

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Miaoli Mou, Hongjun Liu, Nan Huang, Qibing Sun, and Zhaolu Wang, "Tunable terahertz Kerr switching based on nonlinear polarization rotation in silicon waveguide," Appl. Opt. 53, 2741-2747 (2014)

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Abstract

A compact and widely tunable terahertz (THz) all-optical Kerr switching using nonlinear polarization rotation generated by cross-phase modulation in a silicon waveguide is theoretically proposed. A switching efficiency of 83% is obtained when a $π$ -phase shift difference between the TE and TM polarization components of the continuous-wave THz signal is achieved. Moreover, the tuning range of the THz switching is from 7.69 to 10 THz through changing the pump power. This THz all-optical switching has potential applications in THz communications and other THz switchable devices.

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Symbol	Parameter	Value
$n$	Linear refractive index of silicon	3.42
$n_{2}$	Nonlinear index coefficient	$5 \times 10^{- 18} m^{2} / W$
$L$	Length of silicon waveguide	4 mm
$A_{eff}$	Effective cross-section area of the silicon waveguide	$107 {μm}^{2}$
$γ_{p}$	Nonlinear coefficient	$27.68 W^{- 1} {Km}^{- 1}$
$λ_{p}$	Pump light wavelength	10.6 μm
$λ_{s}$	Signal light wavelength	30–39 μm

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Applied Optics