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Future projections on the anomalous WW?? couplings in hadron–hadron interactions at the FCC-hh
(2022)
We carry out a study in the approach of a dimension-eight effective field theory on the anomalous quartic WWγγ couplings that arise from the process pp→ Wγγ at the Future Circular Collider-hadron hadron (FCC-hh). The process ...
Search for the anomalous ZZ? and Z?? couplings via ??? production at the CLIC.
(2022)
The non-Abelian gauge structure of the Standard Model implies the presence of the multi-boson self-interactions. Precise measurements in experimental and theoretical studies of these interactions allow not only testing the ...
Sensitivity analysis for the anomalous $$W^+W^- \\gamma $$ couplings at the LHeC and the FCC-he
(2022)
We study the anomalous couplings in performing the production of the W-pair through the process at the Large Hadron electron Collider (LHeC) and the Future Circular Collider-hadron electron (FCC-he). We examine the pure ...
Artificial-intelligence-supported shell-model calculations for light Sn isotopes
(American Physical Society, 11/04/2022)
The region around the doubly magic nuclide
100
Sn
is very interesting for nuclear physics studies in terms of structure, reaction, and nuclear astrophysics. The main ingredients in nuclear structure studies using the ...
Nonlinear absorption coefficient and relative refractive index change for Konwent potential quantum well as a function of intense laser field effect
(Elsevier, 2023)
Optoelectronic properties of semiconductor quantum wells are among the most studied issues in solid state
device physics. However, this is a topic that deserves attention because of the particular potential energy
shape ...
Spin–Orbit and Zeeman Effects on the Electronic Properties of Single Quantum Rings: Applied Magnetic Field and Topological Defects
(MDPI, 2023)
Within the framework of effective mass theory, we investigate the effects of spin–orbit
interaction (SOI) and Zeeman splitting on the electronic properties of an electron confined in GaAs
single quantum rings. Energies ...
Electric field, magnetic field, and hydrostatic pressure effects on the absorption coefficient for GaAs/Al𝑥���Ga1−𝑥���As/Al0.3Ga0.7As staggered core–shell–shell spherical quantumdots
(Elsevier, 2023)
Quantum dot’s optical properties are of great interest from the point of view of basic physics, as well as for their
possible applications in optoelectronic devices. Among the large number of possible quantum dot ...
Tuning of nonlinear optical characteristics of a cylindrical quantum dot by external fields and structure parameters
(Taylo&Francis, 2023)
In this present study, we have theoretically investigated the
effect of applied external electric field and non-resonant
intense laser field, as well as the adjustable physical
parameters (A, M, and η) of the system, ...
Position-dependent-mass and laser field impact on the optical characteristics of Manning-like double quantum well
(Elsevier, 2023)
A theoretical investigation of the optical and electronic properties produced by a Manning-type double quantum
well under the impact of varied electron effective mass and intense laser field has been implemented within ...
Effects of external perturbations on light absorption by light/heavy hole excitons in a semi-parabolic quantum well
(Elsevier, 2023)
The effects of electric, magnetic, and intense terahertz laser fields on optoelectronic properties are inves- tigated in a GaAs/Al x Ga 1-x As semi-parabolic quantum well. The binding energy, exciton light absorption ...