English: The physicist Arthur Holly Compton used the quantum theory to explain how the scattering of light quantum by electrons takes place, a phenomenon. based on Compton scattering, which allows for the simultaneous espalhamento Compton, a qual viabiliza a medida simultânea da densidade e da umidade. Abstract. PAIVA, Eduardo de. On the inverse Compton scattering. Rev. Bras. Ensino Fís. [online]. , vol, n.3, pp ISSN
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Compton explained and modeled the data by assuming a particle photon nature for light and applying conservation of energy and conservation of momentum to the collision between the photon and the electron. Index Great experiments of physics Reference: Compton was awarded the Nobel Prize in for the “discovery of the effect named after him”.
The shift of the wavelength increased with scattering angle according to the Compton formula: The shift of the wavelength increased with scattering angle according to the Compton formula:. Remote access to EBSCO’s databases is permitted to patrons of subscribing espalhamdnto accessing from remote locations for personal, non-commercial use.
EBSCOhost | | Sobre o espalhamento Compton inverso.
An interesting feature of the Espalhamsnto effect occurs in a frontal collision between the photon and the electron with the photon being backscattered, in which case the energy of the scattered photon is maximum and can be even of the order of magnitude of the energy of the incident electron.
The scattered photon has lower energy and therefore a longer wavelength according to the Planck relationship. Click for more detail. Photon beams produced by inverse Compton scattering of laser light by relativistic electrons have scientific, technological, industrial comptoj medical applications.
Compton Scattering Arthur H. No warranty is given about the accuracy of the copy.
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Users should refer to the original published version of the material for the full abstract. At a time early ‘s when the particle photon nature of light suggested by the photoelectric espalhzmento was still being debated, the Compton experiment gave clear and independent evidence of particle-like behavior.
This abstract may be abridged. The physicist Arthur Holly Compton used the quantum theory to explain how the scattering of light quantum by electrons takes place, a phenomenon known as Compton effect.
Compton observed the scattering of x-rays from electrons in a carbon target and found scattered x-rays with a longer wavelength than those incident upon the target.