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Scrutinize of X-rays Compton Scattering Through the Classical Hartemann-Kerman Model and Dalitz-like Plots Technique
(Institute of Electrical and Electronics Engineers, 2021-12)
In this paper the identification of harmonics of high order due to the interaction of a GeV electron and a super-intense laser pulse with linear polarization is done. For this it is used the technique known as the Dalitz’s ...
Acceso restringido
Classical Nonlinear Compton Scattering with Strong Bessel Laser Beams
(Institute of Electrical and Electronics Engineers, 2021-12)
In this paper, the Hartemann-Kerman approach is numerically examined with the implementation of Bessel pulses that dramatically changes the morphology of yielded radiation. For this end it is used the covariant Bessel pulse ...
Acceso restringido
The Quantum Mechanics Propagator as the Machine Learning Performance in Space-Time Displacements
(Institute of Electrical and Electronics Engineers, 2021-12)
The role of evolution operator is to provide the time displacement of wave function through the Hamiltonian of the system. The usage of coordinates representation gives the well-known propagator that is the Green’s function. ...
Acceso restringido
Duality at Classical Electrodynamics and its Interpretation through Machine Learning Algorithms
((IJACSA) International Journal of Advanced Computer Science and Applications, 2022)
The aim of this paper is to investigate the hypothetical duality of classical electrodynamics and quantum mechanics
through the usage of Machine Learning principles. Thus, the Mitchell’s criteria are used. Essentially ...
Acceso abierto
Neurogenesis as a Probability Amplitude Governed by Charges-Dependent Hamiltonian
(IEEE, 2022)
Inspired on the idea of Mathew P. A. Fisher about the possibility that quantum mechanics is playing some basic roles on the biochemical processes in the brain, this paper has opted by develop a theory based on the description ...
Acceso restringido
Quantum Displacements Dictated by Machine Learning Principles: Towards Optimization of Quantum Paths
(Springer Link, 2023)
In Physics the energy of any system represents a sensitive variable because of it depends the functionality and evolution of system at time. Thus the deep knowledge of the interactions of system might be a remarkable ...
Acceso restringido
Improving the Ca2+ Signaling Performance Through the Bennett-Brassard Protocol
(IEEE, 2023)
Since Calcium 2+ ions are expected to play a role as to sustain the desired homeostasis in cells, therefore the signaling of them constitutes a relevant aspect to optimize an efficient treatment of cells in a framework of ...
Acceso restringido
Quantization with Infinite Classical Fields: The Quantum/Classical Correspondence
(IEEE, 2023)
It is shown that quantization of an external field apart of being intrinsic in quantum field theories, it can be also done in a fully scenario of classical electrodynamics. In this paper the quantization of field is ...
Acceso restringido
The Criteria of Mitchell to Interpret Classical Radiation as Compton Scattering
(IEEE, 2022)
The principles of Machine Learning through the criteria of Mitchell are used to validate a concrete quantum-mechanics interpretation from a classical radiation scheme inside the framework of linear and nonlinear Compton ...
Acceso restringido
The Machine Learning Principles Based at the Quantum Mechanics Postulates
(Springer Link, 2022)
Quantum mechanics is governed by well-defined postulates by the which one can go through either theory or experimental studies in order to perform measurements of microscopic dynamics of elementary particles, atoms and ...
Acceso restringido