Chip-scale integration of electronics and photonics is recognized as important to the future
of information technology, as is the exploitation of the best properties of electronics …

The growth of integrated photonics has driven the need for efficient, high-bandwidth
electrical-to-optical (EO) signal conversion over a broad range of frequencies (MHz–THz) …

Plasmonic-organic hybrid technology affords the potential for exceptional bandwidth,
extremely small footprint, and very low drive voltages resulting in substantially improved …

The performance of electro-optic devices based on organic second order NLO materials has
been improved by orders of magnitude through theory-guided improvement in the electro …

The scaling that has governed the continual increase in density, performance, and efficiency
of electronic devices is rapidly reaching its inevitable limitations. In order to sustain the trend …

Recent development of tailored organic electric-optic (OEO) materials and their applications
in hybrid device systems has been reviewed. Hybrid systems encompass the optical and/or …

Silicon photonics offers tremendous potential for inexpensive high-yield photonic-electronic
integration. Besides conventional dielectric waveguides, plasmonic structures can also be …

Optical modulators are vital for many applications, including telecommunication, data
communication, optical computing, and microwave photonic links. A compact modulator with …

Energy-efficient electro-optic modulators are at the heart of short-reach optical interconnects,
and silicon photonics is considered the leading technology for realizing such devices …

Complementing plasmonic slot waveguides with highly nonlinear organic materials has
rendered a new generation of ultracompact active nanophotonic components that are …