Ultra-compact nonvolatile plasmonic phase change modulators and switches with dual electrical-optical functionality

TL;DR

This paper introduces ultra-compact, nonvolatile plasmonic modulators and switches with dual electrical-optical functionality, enabling low-power, fast, and versatile on-chip optical modulation using phase change materials.

Contribution

It presents a novel plasmonic nonvolatile switch capable of phase and absorption modulation with zero-static power and extremely compact size, advancing integrated photonics technology.

Findings

Full pi phase delay achieved in 230 nm waveguide with 0.12 dB loss

Extinction ratio over 2.2 dB/um for amplitude modulation

Flexible heating mechanisms for device operation

Abstract

Programmable photonic integrated circuits (PICs) are the foundation of on-chip optical technologies with the optical modulators being one of the main building blocks of such programmable PICs. However, most of the available modulators suffer from high power consumption, low response time and large footprint. To overcome some limitations the nonvolatile phase change materials implemented in the plasmonic structures are proposed that can offer many advantages as a result of high electric field interaction with nonvolatile materials. Consequently, proposed here novel plasmonic nonvolatile switches can operate by phase modulation, absorption modulation, or both and under zero-static power. Thus, only 230 nm long active waveguide is needed to attain full pi phase delay with an insertion loss of 0.12 dB. Apart from it, when operating by amplitude modulation an extinction ration exceeding 2.2 dB/um can be achieved while an insertion loss is kept at 0.185 dB/um. Furthermore, the heating mechanism can be based on the external heaters, internal heaters, electrical (memory) switching or optical switching mechanism what provide a lot of flexibility in terms of a design and requirements.