Magnetless Optical Circulator Based on an Iron Garnet with Reduced Magnetization Saturation

Abstract: A three-port circulator for optical communication systems comprising a photonic crystal slab made of a magneto-optical material in which an magnetizing element is not required to keep its magnetic domains aligned is suggested for the first time. By maximizing the incorporation of europium to its molecular formula, the magneto-optical material can remain in the saturated magnetic state even in the absence of an external DC magnetic field. Two- and three-dimensional simulations of the device performed with full-… Show more

“…Developing a new host of active optical devices depends upon the ability to design nanostructures whose optical properties can be modulated dynamically. In recent years, the optical response of magnetic materials has been tuned by exploiting magneto-optical (MO) effects, which has led to breakthroughs in (bio)sensing, routers/switches, modulators, , circulators and isolators, − and buffering . Because MO effects are weak in the nanoscale, enhancement has been sought through plasmonic resonance incorporating metallic building components.…”

Toward Machine-Learning-Accelerated Design of All-Dielectric Magnetophotonic Nanostructures

“…Developing a new host of active optical devices depends upon the ability to design nanostructures whose optical properties can be modulated dynamically. In recent years, the optical response of magnetic materials has been tuned by exploiting magneto-optical (MO) effects, which has led to breakthroughs in (bio)sensing, routers/switches, modulators, , circulators and isolators, − and buffering . Because MO effects are weak in the nanoscale, enhancement has been sought through plasmonic resonance incorporating metallic building components.…”

Toward Machine-Learning-Accelerated Design of All-Dielectric Magnetophotonic Nanostructures

Strain induced photonic topological insulator