Matter&InteractionsVolII:Electric&MagneticInteractionsRuthChabay&BruceSherwoodThisprojectwassupportedinpartbytheNationalScienceFoundation(GrantsMDR-8953367,USE-9156105,DUE-9954843,andDUE9972420).Opinionsexpressedarethoseoftheauthors,andnotnecessarilythoseoftheFoundation.NoteThispresentationisnormallyaccompaniedbyoralclarific...
The electron-positron elementary charge derives naturally from the electromagnetic quantum vacuum and is related to the photon vector potential. We establish the masse-charge equivalence relation showing that the masses of all particles (leptons, mesons, baryons) and antiparticles are states of the ...
The Missing Secrets of ElectroMagnetism & Fractality – Ferrocell, CRT and Ferroliquid Revelations of Fractal Toroidal Electromagnetic Energy Dynamics – or in other words: Why we dont need anything else than (Di-)Electric power potential and Magnetism (vibrating fundamental electromagnetic field – cy...
Ultralight dark photons and axions are well-motivated hypothetical dark matter candidates. Both dark photon dark matter and axion dark matter can resonantly convert into electromagnetic waves in the solar corona when their mass is equal to the solar plasma frequency. The resultant electromagnetic waves ...
Hot Dark Matter In subject area: Physics and Astronomy Hot dark matter refers to a type of dark matter composed of massive and high-velocity components, such as neutrinos, which have relativistic speeds. This type of dark matter tends to spread structures like galaxies and is believed to consti...
The Gouy phase is essential for accurately describing various wave phenomena, ranging from classical electromagnetic waves to matter waves and quantum optics. In this work, we employ phase-space methods based on the cross-Wigner transformation to analyze spatial and temporal interference in the evolutio...
The different types of waves are: mechanical, electromagnetic, and matter waves. Mechanical waves are divided into transverse and longitudinal waves. UV rays and radio waves are types of electromagnetic waves.
On the relation between a zero-point-field-induced inertial effect and the Einstein–de Broglie formula It has been proposed that the scattering of electromagnetic zero-point radiation by accelerating objects results in a reaction force that may account, at l... Bernard,Haisch,and,... - 《Phys...
It must be: (1) dark enough to explain the lack of observations across the whole electromagnetic spectrum; (2) “cold” in order to agree with the observed large-scale structure and CMB anisotropies; (3) non-interacting or weakly interacting to be consistent with the dark matter distribution...
Electromagnetic waves can tunnel through the air gap with a calculable intensity. In quantum mechanics, we calculate the fraction of the number of particles that tunnel through the barrier. Fraction of the particles getting through a the barrier’s width <U> the barrier’s average potential ...