Our Products

Lithium Niobate Sputtering Targets

Lithium Niobate Sputtering Targets

Lithium Niobate Sputtering Targets

Categories: ,
Lithium Niobate Sputtering Targets
Product No NRE-43248
CAS No. 12031-63-9
Formula LiNbO3
Molecular Weight 147.85
Purity >99.9%
Density 4.30 g/cm3
Thickness 3 mm ± 0.5mm (can be customized)
Diameter 50 mm ± 1mm (can be customized)
Shape Round
Resistivity NA
Thermal Conductivity NA

Lithium Niobate Sputtering Targets

Introduction

Lithium Niobate Sputtering Targets is a versatile and widely used material in various applications, particularly in the fields of optics, electronics, and telecommunications. Known for its excellent piezoelectric, ferroelectric, and nonlinear optical properties, lithium niobate is critical in devices such as optical modulators, frequency converters, and sensors. The ability to fabricate high-quality thin films of lithium niobate enhances its applicability in advanced technologies.

Sputtering Targets made from lithium niobate are employed in thin film deposition processes to create high-performance films for various electronic and optical devices.

Applications

Optical Devices:

Waveguides and Modulators: Lithium niobate is extensively used in the fabrication of waveguides and electro-optic modulators for telecommunications, where its ability to modulate light with electrical signals is crucial.

Nonlinear Optical Devices:

LiNbO₃ is used in devices such as frequency doublers and parametric amplifiers, where its nonlinear optical properties enable efficient conversion of wavelengths.

Surface Acoustic Wave (SAW) Devices:

The piezoelectric properties of lithium niobate make it suitable for SAW devices, commonly used in filters and sensors in communication technologies.

Sensors:

Lithium niobate films can be used in various sensor applications, including pressure sensors and acoustic sensors, leveraging its piezoelectric and ferroelectric properties.

Integrated Photonic Circuits:

Sputtered lithium niobate is increasingly utilized in integrated photonic circuits, where it enables the miniaturization of optical components and enhances functionality.

 

Related products

error: