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Rreth kësaj reviste

Fizika Nesër  Letrat e fizikës teorike (TPL) Një ditar mujor i indeksuar nga SCI, tre herë i rishikuar nga kolegët.

 

Physics Tomorrow Theoretical Physics Letters TPL është një revistë ndërkombëtare e rishikuar tre herë, e cila boton artikuj të ri kërkimor dhe rishikues për çdo dimension të fizikës. Faktori aktual i ndikimit është 1.4 sipas përditësimit të vitit 2019.

rishikim fizik a, letra të aplikuara të fizikës.

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Manuscripts are peer-reviewed and a first decision provided to authors approximately 21 days after submission; acceptance to publication is undertaken in 8-10 days post first decision.

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Faktor ndikues

3.56 (2022) ; 7-Year Impact Factor: 4.16 (2024 running month)

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OSE klikoni këtu për të dorëzuar

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The Nature of the 1 MeV-Gamma quantum in a Classic Interpretation of the Quantum Potential

By considering wave-particle dualism with an interpretation of the squared amplitude of the wave function R2(Y) compatible with the known Bohm’s equations, for a 1 MeV-gamma-quantum considered as ‘gammonic’ (e-e+)- pair of electrons having the phase speed of the associated wave equal to the group speed of passing through a low frictional component of the quantum vacuum, it results a value of the quantum potential Q equal to the particle’s kinetic energy, Qc = ½mv2 , for a classic model of electron composed by heavy photons, this value being explained by a generalized relation of quantum equilibrium of de Broglie type, with the associated entropy proportional to its action S, as representing a centrifugal potential given by a spinorial mass ms = nvmv » me resulting by nv -vector photons explaining also a half of the electron’s rest energy by considering and a dynamic component of the quantum vacuum- given by quantum and sub-quantum winds ............
TphysicsLetters
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Dirac-Majorana neutrino type conversion induced by an oscillating scalar dark matter

Some properties of a neutrino may differ significantly depending on whether it is Dirac or Majorana type. The type is determined by the relative size of Dirac and Majorana masses, which may vary if they arise from an oscillating scalar dark matter.
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Calculation of the Hubble Constant, the Minimum Mass, and the Proton Charge Radius Using the Dirac’s Hypothesis on the Ratio of the Electrostatic Force to the Gravitational Force

This publication suggests that some physical values could be calculated using the Dirac’s hypothesis on the observed ratio of the electrostatic force to the gravitational force. The calculated value of the Hubble constant is H ≈ 72.013 km s‑1 Mpc‑1 and that of the minimum mass, Mmin ≈ 1.720 6 × 10‑68 kg. Recent observations suggest that the proton charge radius could also be calculated using an additional but related assumption: rp ≈ 0.826 4 fm.

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Total submitted and accepted manuscript ratio in current month.

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