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- Gamma rays or gamma radiation are a form of electromagnetic radiation with extremely high frequency and energy. They are a significant topic of study in fields such as nuclear physics, astrophysics, and medical science due to their unique properties and diverse applications. Gamma rays are light (photons), not particles.
sciencenotes.org/gamma-rays-or-gamma-radiation-definition-and-properties/
A gamma ray, also known as gamma radiation (symbol γ), is a penetrating form of electromagnetic radiation arising from the radioactive decay of atomic nuclei. It consists of the shortest wavelength electromagnetic waves, typically shorter than those of X-rays.
Nov 3, 2024 · A gamma ray is electromagnetic radiation of the shortest wavelength and highest energy. Gamma-ray radiation has wavelengths generally smaller than a few tenths of an angstrom (10 meter), and gamma-ray photons have energies greater than tens of thousands of electron volts.
Gamma rays, X-rays, and extreme ultraviolet rays are called ionizing radiation because their high photon energy is able to ionize atoms, causing chemical reactions. Longer-wavelength radiation such as visible light is nonionizing; the photons do not have sufficient energy to ionize atoms.
- Discovery of Gamma Rays
- Characteristics of Gamma Rays / Radiation
- Photoelectric Effect
- Compton Scattering
- Positron-Electron Pair Production
- Gamma Rays Attenuation
- Validity of Exponential Law
- Build-Up Factors For Gamma Rays Shielding
Gamma rays were discovered shortly after the discovery of X-rays. In 1896, French scientist Henri Becquerel discovered that uranium minerals could expose a photographic plate through another material. Becquerel presumed that uranium emitted some invisible light similar to X-rays, which W.C.Roentgen recently discovered. He called it “metallic phosph...
Key features of gamma raysare summarized in the following few points: 1. Gamma rays are high-energy photons(about 10 000 times as much energy as the visible photons), the same photons as the photons forming the visible range of the electromagnetic spectrum – light. 2. Photons (gamma rays and X-rays) can ionize atoms directly (despite they are elect...
See also : Photoelectric effect 1. The photoelectric effect dominates at low-energies of gamma rays. 2. The photoelectric effect leads to the emission of photoelectrons from matter when light (photons) shines upon them. 3. The maximum energy an electron can receive in any one interaction is hν. 4. The photoelectric effect only emits electrons if th...
Key characteristics of Compton Scattering
1. Compton scattering dominates at intermediate energies. 2. It is the scattering of photons by atomic electrons 3. Photons undergo a wavelength shift called the Compton shift. 4. The energy transferred to the recoil electron can vary from zero to a large fractionof the incident gamma-ray energy.
Definition of Compton Scattering
Compton scattering is the inelastic or nonclassical scattering of a photon (which may be an X-ray or gamma-ray photon) by a charged particle, usually an electron. In Compton scattering, the incident gamma-ray photon is deflected through an angle Θ with regard to its original direction. This deflection decreases the photon’s frequency’s energy (decrease in photon’s frequency) and is called the Compton effect. The photon transfers a portion of its energy to the recoil electron. The energy trans...
Compton Scattering Formula
The Compton formula was published in 1923 in the Physical Review. Compton explained that the particle-like momentum of photons causes the X-ray shift. Compton scattering formula is the mathematical relationship between the shift in wavelength and the scattering angle of the X-rays. In the case of Compton scattering, the photon of frequency f collides with an electron at rest. The photon bounces off the electron upon collision, giving up some of its initial energy (given by Planck’s formula E=...
In general, pair production is a phenomenon of nature where energy is directly converted to matter. The phenomenon of pair production can be view two different ways. One way is a particle and anti-particle, and the other is a particle and a hole. The first way can be represented by the formation of electron and positron from a packet of electromagn...
The total cross-section of the interaction of gamma rays with an atom is equal to the sum of all three mentioned partial cross-sections: σ = σf + σC + σp 1. σf– Photoelectric effect 1. σC– Compton scattering 1. σp– Pair production One of the three partial cross-sections may become much larger than the other two depending on the gamma-ray energy and...
The exponential law will always describe the attenuation of the primary radiation by matter. If secondary particles are produced, or the primary radiation changes its energy or direction, the effective attenuation will be much less. The radiation will penetrate more deeply into matter than is predicted by the exponential law alone. The process must...
The build-up factor is a correction factor that considers the influence of the scattered radiation plus any secondary particles in the medium during shielding calculations. If we want to account for the build-up of secondary radiation, then we have to include the build-up factor. The build-up factor is then a multiplicative factor that accounts for...
Nov 14, 2014 · Radio waves, gamma-rays, visible light, and all the other parts of the electromagnetic spectrum are electromagnetic radiation. Electromagnetic radiation can be described in terms of a stream of mass-less particles, called photons , each traveling in a wave-like pattern at the speed of light .
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