Samarium Copper Oxide Sputtering Targets

Samarium Copper Oxide Sputtering Targets

Introduction

Chemical Composition:
Samarium copper oxide sputtering targets commonly represented as Sm2CuO4\text{Sm}_2\text{CuO}_4Sm2​CuO4​, is a member of the cuprate family of high-temperature superconductors. This compound incorporates samarium (Sm) and copper (Cu) in its structure, allowing for interesting electronic and magnetic properties.

Material Properties:

Samarium copper oxide exhibits superconductivity at higher temperatures compared to conventional superconductors, making it a subject of interest for various advanced applications.

Its structure contributes to unique electronic properties, including charge carrier dynamics and magnetic behavior.

Applications

Superconducting Thin Films:

Primarily used for producing thin films in superconducting applications, crucial for developing superconducting wires and devices that can carry high currents without resistance.

High-Temperature Superconductors:

Employed in applications requiring superconductors that operate at elevated temperatures, such as in magnetic resonance imaging (MRI) systems and advanced scientific research facilities.

Magnetic Field Sensors:

The unique properties of samarium copper oxide allow for the development of sensitive magnetic field sensors, enhancing detection capabilities in various technologies.

Energy Storage Systems:

Investigated for use in superconducting magnetic energy storage (SMES) systems, which provide rapid energy discharge and are beneficial for grid stability and energy management.

Power Electronics:

Used in the manufacturing of superconducting components for power electronics, including transformers and inductors, which benefit from efficient current handling.

Research Applications:

Samarium copper oxide sputtering targets are utilized in research to explore new superconducting materials and understand the underlying physics of superconductivity.