Ytterbium Fluoride Powder
Ytterbium Fluoride Powder
Ytterbium Fluoride Powder | |
Product No | NRE-11285 |
CAS | 13760-80-0 |
Purity | 99.9% |
APS | <40 µm (can be customized) |
Formula | YbF3 |
Molecular Weight | 230.04 g/mol |
Density | 8.2 g/cm³ |
Color | White |
Melting Point | 1052 °C |
Boiling Point | 2380°C |
Ytterbium Fluoride Powder
Applications
Laser and Optical Applications:
Ytterbium fluoride powder is used extensively in the production of laser materials. Ytterbium-doped solid-state lasers are widely employed in material processing, medical equipment, scientific research, and optical communications. Ytterbium has a broad absorption spectrum, which makes it an excellent choice for laser gain media, particularly in fiber lasers.
Ytterbium fluoride is often used in the creation of optical coatings and windows for high-power lasers and optical systems, where its ability to withstand high temperatures and resist radiation damage is critical.
Optical and Photonic Devices:
Ytterbium fluoride is employed in the manufacture of optical fibers, photonic devices, and telecommunications equipment. The compound is valued for its fluorescent properties and ability to efficiently absorb and emit light, particularly in the near-infrared (NIR) region.
It is also used in the fabrication of optical fibers for lasers and amplifiers. Due to its luminescent properties, ytterbium fluoride is useful in the development of up-conversion phosphors, which can convert lower-energy photons (such as infrared) into higher-energy visible light. This makes it valuable in medical imaging and lighting applications.
Energy Storage and Quantum Technologies:
Ytterbium fluoride is explored in energy storage technologies, particularly in the development of advanced solid-state batteries. Ytterbium compounds, including YbF₃, have the potential to improve the performance of materials used in these devices by enhancing electron transport and ion conductivity.
It is also used in quantum technology applications, including quantum computing and spintronics, due to its unique optical properties and potential for creating stable quantum states.
Nuclear and Radiation Detection:
Ytterbium fluoride is used in radiation detection and nuclear applications, especially in the nuclear medicine field. It is used in scintillation detectors and gamma-ray spectrometers because of its ability to efficiently interact with high-energy photons. The compound’s high atomic number makes it suitable for detecting and analyzing gamma radiation.
It is also used in neutron activation analysis and in research related to nuclear reactors due to its stability and resistance to radiation-induced damage.