The shield of hyper pure germanium refers to a device used in particle physics experiments for detecting and measuring ionizing radiation. It consists of a highly purified germanium crystal that acts as a detector to measure gamma rays emitted from radioactive decay. The shield helps to minimize background noise and accurately quantify radiation levels.
Yes, germanium can be doped to become an n-type semiconductor by introducing donor impurities such as phosphorus or arsenic. This process increases the number of free electrons in the material, giving it an excess of negative charge carriers.
The relative permittivity of a material is a measure of how much the material can store electric potential energy. Germanium has a higher relative permittivity than diamond because germanium has more free charge carriers (due to its intrinsic semiconductor properties) that can contribute to the overall permittivity. In contrast, diamond is a pure covalent material with no free charge carriers, resulting in a lower relative permittivity.
Germanium has 32 electrons and protons; the number of neutrons is specific for each isotope. Number of neutrons in a germanium isotope = Mass number - 32
The atomic radius of germanium is approximately 122 picometers.
The energy band gap for germanium is around 0.67 electron volts (eV) at room temperature. This makes germanium a semiconductor with properties in between those of conductors and insulators.
Pure germanium is obtained by distllation of germanium tetrachloride, followed by hydrolysis of GeCl4 to GeO2 and reducing of GeO2 with hydrogen to Ge.
silicon and germanium
Neither, it is a crystalline solid in pure form.
Germanium itself does not have a distinct odor. It is a metalloid and is typically odorless in its pure form.
The pure element has no odor as it is a solid and nonvolatile.
Yes. Pure gold is a much better conductor than pure germanium is.
in pure germanium there are effectively noconduction band electrons or holes, so they don't move at all.
Scintillation is a fluctuation in the amplitude of a target on a radar display. It is closely related to target glint, or wander, an apparent displacement of the target from its mean position. This effect can be caused by a shift of the effective reflection point on the target, but has other causes as well. The fluctuations can be slow (scan-to-scan) or rapid (pulse-to-pulse).It appears especially at seaside level.Scintillation and glint are actually two manifestations of the same phenomenon and are most properly linked to one another in target modeling.hyperpure germanium detector:A variant of the lithium-drifted germanium crystal which uses high-purity germanium, making it possible to store the detector at room temperature rather than liquid nitrogen temperature. Read more: hyperpure-germanium-detector
60 ohm-m?
Germanium does not have a distinct odor. In its pure form, germanium is a hard, grayish-white metalloid. It is commonly used in electronics and optical devices.
Germanium is a metalloid that is commonly found in nature in the form of germanium dioxide (GeO2) or germanite, which is a rare mineral. It is typically found in combination with other elements rather than in its pure form.
lovely person...sometimes hyper...pure