Bismuth germanate
| File:Bismuth germanate structure.png | |
| Properties | |-|
| Density || 7.13 g/cm3 |-| | Melting point || 1050 °C |-| | Boiling point || |-| | Thermal conductivity || |-| | Electrical resistivity || |
|---|---|
| Discovered by | [[]] |
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Bismuth Germanate, commonly referred to as BGO, is a crystalline compound with the chemical formula Bi4Ge3O12. It is widely used in scintillation detectors due to its high density and effective atomic number, which make it an excellent material for detecting gamma rays and X-rays.
Properties[edit | edit source]
Bismuth Germanate is known for its high density of 7.13 g/cm3 and a high effective atomic number, which contribute to its efficiency in stopping and detecting high-energy photons. It has a relatively high refractive index of 2.15, which is beneficial for light collection in scintillation applications. BGO is also non-hygroscopic, meaning it does not absorb moisture from the air, which is an advantage over other scintillation materials like sodium iodide.
Applications[edit | edit source]
BGO is primarily used in medical imaging and high-energy physics experiments. In medical imaging, it is used in positron emission tomography (PET) scanners, where its properties allow for the precise detection of gamma rays emitted by positron-emitting radionuclides. In high-energy physics, BGO is used in calorimeters to measure the energy of particles.
Production[edit | edit source]
Bismuth Germanate is typically produced by the Czochralski process, a method of crystal growth used to obtain single crystals of semiconductors, metals, salts, and synthetic gemstones. The process involves melting the raw materials and slowly pulling a seed crystal from the melt, allowing the crystal to grow.
Advantages and Limitations[edit | edit source]
BGO's high density and atomic number make it an excellent choice for applications requiring high stopping power for gamma rays. However, it has a relatively slow scintillation decay time compared to other materials like lutetium oxyorthosilicate (LSO), which can limit its use in applications requiring fast timing.
Also see[edit | edit source]
- Scintillation detector
- Positron emission tomography
- Calorimeter (particle physics)
- Czochralski process
Template:Scintillation materials
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