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Start Over Descriptor "compton effect" Topic gamma radiation
698 results on '"compton effect"'

1. Inverse Compton Scattering of Photons and Equivalent Photons on Channeled Particles.

Author

Kalashnikov, N. P. and Olchak, A. S.

Subjects
*INVERSE Compton scattering, *ELECTROMAGNETIC wave scattering, *PHOTON scattering, *PHOTONS, *COMPTON effect, *ELECTROMAGNETIC waves, *ELECTRON scattering
Abstract

The Compton scattering effect of electromagnetic waves (photons) on free electrons has been known since the beginning of the twentieth century. A photon moving toward a fast electron can be scattered in the opposite direction, significantly increasing its energy because of the loss of it by the electron. When the scattering electron is not free, but moves in a single crystal in the channeling mode, periodic harmonics of the potential of atomic planes or axes along which the channeled electron moves can serve as the scattered photon. In the so-called accompanying reference system moving at the velocity equal to the longitudinal component of the channeled particle velocity, these harmonics can be considered as electromagnetic waves (equivalent photons) interacting with the electron making finite orbital or oscillatory motion in the averaged potential of the atomic axis or plane. The result of equivalent photon backscattering is a real photon, observable as a high-energy photon in the laboratory system. Because of the discreteness of the transverse motion energy spectrum of the channeled electron, the emitted photon spectrum will also be discrete. This work continues a series of our previous studies [3–5] of effects associated with electromagnetic processes during the passage of fast charged particles through crystal structures within a mixed quantum-classical approach. The backscattering kinematics of photons and equivalent photons by the ultrarelativistic electrons has been analyzed in detail in the general case and in the channeling mode. The characteristic frequencies have been calculated and the intensity of the resulting radiation has been estimated. [ABSTRACT FROM AUTHOR]

Published
2023
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2. Interplay Between γ–Ray Irradiation and 3DEG for Dosimeter Applications

Author

Khushwant Sehra, Vandana Kumari, Poonam Kasturi, Mridula Gupta, Meena Mishra, Dipendra Singh Rawal, and Manoj Saxena

Subjects
HEMT, enhancement mode, dosimeter, total ionizing dose, compton effect, gamma radiation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

This work investigates the cumulative dose 60Co gamma ( $\gamma$ ) – ray irradiation effects on enhancement mode HEMT devices inheriting 3D – Electron and Hole Gases for dosimeter applications. The devices are irradiated through a 60Co source and demonstrate the enhancement in the drain current metrics. To elucidate, the said devices were irradiated through different mechanisms and the Compton effect was investigated through contour plots via TCAD simulations. The degradation of Schottky Gate contact and insulator charging affects the 2D – Hole Gas at the GaN cap and thereby affects the bottleneck at the 3DEG sheet. This significantly affects the OFF – state leakage components of the said device and can therefore be exploited for potential use in sensing and dosimeter applications. The leakage components can be exploited further to improve the linearity of the dosimeter by considering different grading profiles of the AlGaN layer. In this regard, a workflow for optimizing the sensitivity and linearity of the dosimeter through different graded profiles is also presented. Amongst all, gaussian graded profiles have been identified as the best – case scenario considering the sensitivity and exhibiting a linear operation.

Published
2022
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