Nonlinear polymer-clad silicon slot waveguide modulator with a half wave voltage of 0.25 V

Tom Baehr-Jones; Boyan Penkov; Jingqing Huang; Phil Sullivan; Joshua Davies; Jocelyn Takayesu; Jingdong Luo; Tae-Dong Kim; Larry Dalton; Alex Jen; Michael Hochberg; Axel Scherer

doi:10.1063/1.2909656

Nonlinear polymer-clad silicon slot waveguide modulator with a half wave voltage of 0.25 V

Tom Baehr-Jones^*, Boyan Penkov, Jingqing Huang, Phil Sullivan, Joshua Davies, Jocelyn Takayesu, Jingdong Luo, Tae-Dong Kim, Larry Dalton, Alex Jen, Michael Hochberg, Axel Scherer

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

230 Citations (Scopus)

Abstract

We report on an electro-optic modulator fabricated from a silicon slot waveguide and clad in a nonlinear polymer. In this geometry, the electrodes form parts of the waveguide, and the modulator driving voltage drops across a 120 nm slot. As a result, a half wave voltage of 0.25 V is achieved near 1550 nm. This is one of the lowest values for any modulator obtained to date. As the nonlinear polymers are extremely resistive, our device also has the advantage of drawing almost no current, suggesting this type of modulator could operate at exceedingly low power.

Original language	English
Article number	163303
Journal	Applied Physics Letters
Volume	92
Issue number	16
Online published	21 Apr 2008
DOIs	https://doi.org/10.1063/1.2909656
Publication status	Published - 21 Apr 2008
Externally published	Yes

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title = "Nonlinear polymer-clad silicon slot waveguide modulator with a half wave voltage of 0.25 V",

abstract = "We report on an electro-optic modulator fabricated from a silicon slot waveguide and clad in a nonlinear polymer. In this geometry, the electrodes form parts of the waveguide, and the modulator driving voltage drops across a 120 nm slot. As a result, a half wave voltage of 0.25 V is achieved near 1550 nm. This is one of the lowest values for any modulator obtained to date. As the nonlinear polymers are extremely resistive, our device also has the advantage of drawing almost no current, suggesting this type of modulator could operate at exceedingly low power.",

author = "Tom Baehr-Jones and Boyan Penkov and Jingqing Huang and Phil Sullivan and Joshua Davies and Jocelyn Takayesu and Jingdong Luo and Tae-Dong Kim and Larry Dalton and Alex Jen and Michael Hochberg and Axel Scherer",

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T1 - Nonlinear polymer-clad silicon slot waveguide modulator with a half wave voltage of 0.25 V

AU - Baehr-Jones, Tom

AU - Penkov, Boyan

AU - Huang, Jingqing

AU - Sullivan, Phil

AU - Davies, Joshua

AU - Takayesu, Jocelyn

AU - Luo, Jingdong

AU - Kim, Tae-Dong

AU - Dalton, Larry

AU - Jen, Alex

AU - Hochberg, Michael

AU - Scherer, Axel

PY - 2008/4/21

Y1 - 2008/4/21

N2 - We report on an electro-optic modulator fabricated from a silicon slot waveguide and clad in a nonlinear polymer. In this geometry, the electrodes form parts of the waveguide, and the modulator driving voltage drops across a 120 nm slot. As a result, a half wave voltage of 0.25 V is achieved near 1550 nm. This is one of the lowest values for any modulator obtained to date. As the nonlinear polymers are extremely resistive, our device also has the advantage of drawing almost no current, suggesting this type of modulator could operate at exceedingly low power.

AB - We report on an electro-optic modulator fabricated from a silicon slot waveguide and clad in a nonlinear polymer. In this geometry, the electrodes form parts of the waveguide, and the modulator driving voltage drops across a 120 nm slot. As a result, a half wave voltage of 0.25 V is achieved near 1550 nm. This is one of the lowest values for any modulator obtained to date. As the nonlinear polymers are extremely resistive, our device also has the advantage of drawing almost no current, suggesting this type of modulator could operate at exceedingly low power.

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U2 - 10.1063/1.2909656

DO - 10.1063/1.2909656

M3 - RGC 21 - Publication in refereed journal

SN - 0003-6951

VL - 92

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 16

M1 - 163303

ER -

Nonlinear polymer-clad silicon slot waveguide modulator with a half wave voltage of 0.25 V

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