magneto-optical ceramics | Shanghai Institute of Silicate, Chinese Academy of Sciences

magneto-optical ceramics

High-quality TAG magneto-optical ceramics isolate lasers, save energy and increase efficiency.

Type

Material

Tags

Resource utilization

Product application-related engineering and technology

Fiber laser

Tag-based magneto-optical ceramics

Tag nanometer powder synthesis technology

Solid-state laser

High vedert constant

Solution maturity

Development / Pilot validation

Cooperation methods

Face-to-face consultation

Applicable industry

Scientific research and technology services

Applications

Laser technology

Key innovations

The innovation of this product is reflected in the TAG nano-powder synthesis technology with independent intellectual property rights and the unique two-step sintering process, which successfully prepared TAG magneto-optical ceramics with excellent performance.

Potential economic benefits

This TAG magneto-optical ceramic with independent intellectual property rights can significantly improve laser efficiency and stability with its high Verdet constant and high transmittance. This will enhance product market competitiveness, realize domestic substitution of key components, save users 'costs through energy conservation and consumption reduction, and expand laser applications.

Potential climate benefits

Improve laser efficiency and stability, reduce energy loss, thereby reducing power consumption and related carbon emissions, and helping to save energy in industrial production processes.

Solution supplier

Shanghai Institute of Silicate, Chinese Academy of Sciences

The Shanghai Institute of Silicate, Chinese Academy of Sciences, focuses on the research of advanced inorganic materials and supports high-tech industries and major national needs.

Shanghai，China

Solution details

Application areas:

Faraday optical isolators for solid-state lasers and fiber lasers

Technical characteristics:

The TAG nano-powder synthesis technology with independent intellectual property rights uses two-step sintering to prepare TAG-based magneto-optical ceramics with high optical quality and high Vedert constant.

Performance indicators:

TAG magneto-optical ceramics with a Vedert constant greater than 175 rad·T-1·m-1 and a transmittance of greater than 80% at the working wavelength were developed.

Current status:

Ability to produce small batches in laboratories in Jiading Park, Shanghai

Last updated

05:42:52, Nov 05, 2025

Information contributed by

Green Technology Bank

See original page on

Report