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- Magnetic Properties: Neodymium is known for its exceptional magnetic strength, making it ideal for use in permanent magnets, motors, and generators.
- Optical Properties: Neodymium-doped materials exhibit excellent optical properties, particularly in lasers and glass coloring.
- Alloying: When alloyed with other metals, neodymium improves the strength, ductility, and resistance to high temperatures, making it suitable for specialized applications.
- Catalysis: Neodymium compounds act as effective catalysts in the petrochemical industry, helping refine crude oil into gasoline and other products.
- High Thermal Resistance: Neodymium powder can withstand high temperatures, making it suitable for high-temperature environments and applications such as in electric motors and energy storage.
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- Purity: High purity (99.9% or higher) is critical to ensure the quality and performance of the deposited film.
- Shape and Size: These targets are available in different shapes, such as discs, plates, and cylinders, with customizable dimensions to fit specific sputtering systems.
- Density and Grain Size: Neodymium targets are manufactured with high density and controlled grain size to improve sputtering efficiency and consistency.
- Magnetic Properties: Neodymium is ferromagnetic, making it ideal for applications requiring magnetic properties.
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- High efficiency lasing at 1064 nm
- Enhanced pump absorption under broadband light (flashlamp)
- Ce³⁺ doping improves resistance to UV-induced damage
- Low thermal lensing and high optical quality
- Supports high-energy Q-switched operation
- High chemical and mechanical stability
- Long fluorescence lifetime and excellent beam quality
- Transparent from 0.25 μm to 5.0 μm
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- Dual emission wavelengths: 1047 nm (σ polarization) and 1053 nm (π polarization)
- Naturally polarized output (birefringent crystal)
- Low thermal lensing and low quantum defect
- Longer fluorescence lifetime than Nd:YAG (~480 µs)
- Broad absorption bands suitable for diode pumping (e.g., 792 nm and 797 nm)
- High efficiency and excellent beam quality
- Suitable for high-energy pulsed and mode-locked operations
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- High purity levels (≥99.9% or ≥99.99%).
- Stable physical and chemical properties.
- Uniform particle size suitable for industrial and laboratory use.
- Customizable specifications available upon request.
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- High Purity: Purity levels of ≥99.5% for reliable performance in sensitive applications.
- Magnetic Properties: Essential in manufacturing high-performance neodymium magnets.
- Optical Clarity: Enhances coloration and UV resistance in glass and ceramics.
- Thermal Stability: Maintains performance in high-temperature environments.
- Customizable Particle Size: Available in nano (<100 nm) and micro (1–50 µm) grades or customized.
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- Magnetic Properties: Neodymium oxide exhibits magnetic behavior, making it valuable in magneto-optic devices and sensors where control of magnetic fields is required.
- Optical Transparency: Nd₂O₃ thin films offer optical transparency in the infrared range, making them ideal for optical coatings and filters in laser and photonic devices.
- High Refractive Index: The high refractive index of Nd₂O₃ allows for efficient control of light in optical applications, especially in the IR spectrum.
- Chemical Stability: Nd₂O₃ is highly stable in various chemical environments, ensuring durability and performance in industrial and research applications.
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- Excellent Thermal Stability: Maintains crystal integrity at high operating temperatures.
- Good Chemical Resistance: Resists degradation in acidic and basic environments.
- Low Lattice Mismatch: Ideal for the epitaxial growth of complex oxides and superconducting films.
- High Mechanical Strength: Reduces risk of cracking during processing and device operation.
- Superior Surface Quality: Supports high-quality thin film deposition.
- Perovskite-like Structure: Compatible with a broad range of oxide thin films.
- Stable Optical Properties: Suitable for use in optical communication and laser components.
