William H. Steier scite author profile

Electro-optic (EO) modulators encode electrical signals onto fiber optic transmissions. High drive voltages limit gain and noise levels. Typical polymeric and lithium niobate modulators operate with halfwave voltages of 5 volts. Sterically modified organic chromophores have been used to reduce the attenuation of electric field poling-induced electro-optic activity caused by strong intermolecular electrostatic interactions. Such modified chromophores, incorporated into polymer hosts, were used to fabricate EO modulators with halfwave voltages of 0.8 volts (at a telecommunications wavelength of 1318 nanometers) and to achieve a halfwave voltage-interaction length product of 2.2 volt-centimeters. Optical push-pull poling and driving were also used to reduce halfwave voltage. This study, together with recent demonstrations of exceptional bandwidths (more than 110 gigahertz) and ease of integration (with very large scale integration semiconductor circuitry and ultra-low-loss passive optical circuitry) demonstrates the potential of polymeric materials for next generation telecommunications, information processing, and radio frequency distribution.

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Synthesis and Processing of Improved Organic Second-Order Nonlinear Optical Materials for Applications in Photonics

Dalton

et al. 1995

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From molecules to opto-chips: organic electro-optic materials

Dalton¹,

Steier²,

Robinson³

et al. 1999

J. Mater. Chem.

395

303

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Polymer micro-ring filters and modulators

Rabiei

Steier

Zhang

et al. 2002

J. Lightwave Technol.

518

274

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William H. Steier

Low (Sub-1-Volt) Halfwave Voltage Polymeric Electro-optic Modulators Achieved by Controlling Chromophore Shape

Synthesis and Processing of Improved Organic Second-Order Nonlinear Optical Materials for Applications in Photonics

From molecules to opto-chips: organic electro-optic materials

Polymer micro-ring filters and modulators

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