Holmium Sputtering Target
Holmium Sputtering Target
Holmium Sputtering Target | |
Product No | NRE-43066 |
CAS No. | 7440-60-0 |
Formula | Ho |
Molecular Weight | 164.93 g/mol |
Purity | 99.99% |
Thickness | 3 mm ± 0.5mm (can be customized) |
Diameter | 50 mm ± 1mm (can be customized) |
Shape | Round |
Holmium Sputtering Target
Holmium Sputtering Targets
Introduction
Holmium sputtering targets are materials composed primarily of holmium, a rare earth element known for its unique magnetic, optical, and electrical properties. These targets are used in sputtering processes to deposit thin films of holmium onto various substrates. The distinctive characteristics of holmium make it valuable in a range of advanced applications, particularly in electronics and photonics.
Applications of Holmium Sputtering Targets
Magnetic Materials:
Holmium is known for its strong magnetic properties, making holmium thin films suitable for use in magnetic sensors, data storage devices, and other applications that require efficient magnetic behavior.
Optical Coatings:
Holmium thin films can be utilized in optical coatings for lasers and other photonic devices. Their unique optical properties enhance the performance and efficiency of these components.
Electronics:
Holmium can be used in various electronic applications, such as in capacitors and inductors, where its properties contribute to improved device performance.
Research and Development:
Holmium sputtering targets are valuable in materials science research, facilitating the exploration of new functionalities in thin film technologies and their integration into emerging electronic and optical devices.
Specialized Applications:
Holmium may also be used in specialized applications, including solid-state lighting and as a dopant in various materials to improve their properties.
Overall, holmium sputtering targets play a significant role in advancing technology across multiple fields, providing high-quality thin films that meet the demands of modern applications in electronics, optics, and materials science.