Results 11 to 20 of about 101,457 (141)
Contribution from stochastic electrodynamics to the understanding of quantum mechanics [PDF]
arXiv, 2005 During the last decades there has been a relatively extensive attempt to develop the theory of stochastic electrodynamics (SED) with a view to establishing it as the foundation for quantum mechanics. The theory had several important successes, but failed when applied to the study of particles subject to nonlinear forces.
Luis de la Peña, Ana Marı́a Cetto
arxiv +3 more sources
Inflation of universe due to nonlinear electrodynamics [PDF]
International Journal of Modern Physics A, Vol. 32 (2017) 1750071, 2017 A model of nonlinear electrodynamics with a dimensional parameter $\beta$ is considered. Electromagnetic fields are the source of the gravitation field and inflation of the universe. We imply that the universe is filled by stochastic magnetic fields. It is demonstrated that after the universe inflation the universe decelerates approaching the Minkowski
Kruglov, S. I.
arxiv +3 more sources
Stochastic electrodynamics and the interpretation of quantum theory [PDF]
Book: E.Santos: Realistic interpretation of quantum mechanics,
Cambridge Scholars Publishing, 2022. Chapter 5, 2012 I propose that quantum mechanics is a stochastic theory and quantum phenomena derive from the existence of real vacuum stochastic fields filling space. I revisit stochastic electrodynamics (SED), a theory that studies classical systems of electrically charged particles immersed in an electromagnetic (zeropoint) radiation field with spectral density ...
Emilio Santos
arxiv +3 more sources
Generation of Quantum Vortex Electrons with Intense Laser Pulses. [PDF]
Adv Sci (Weinh)Wave functions of high‐energy electrons can be manipulated with ultra‐short intense laser pulses. Nonlinear scattering theory illustrates the efficient transfer of numerous spin angular momenta of laser photons to orbital angular momenta of scattered electrons, twisting electron wave functions into quantum vortex states.
Bu Z +7 more
europepmc +2 more sources
Magnetospheric Control of Ionospheric TEC Perturbations via Whistler-Mode and ULF Waves. [PDF]
AGU AdvAbstract The weakly ionized plasma in the Earth's ionosphere is controlled by a complex interplay between solar and magnetospheric inputs from above, atmospheric processes from below, and plasma electrodynamics from within. This interaction results in ionosphere structuring and variability that pose major challenges for accurate ionosphere prediction ...
Shen Y +6 more
europepmc +2 more sources
Quantum electrodynamical formulation of photochemical acid generation and its implications on optical lithography [PDF]
, 2021 The photochemical acid generation is refined from the first principles of quantum electrodynamics. First, we briefly review the formulation of the quantum theory of light based on the quantum electrodynamics framework to establish the probability of acid generation at a given spacetime point. The quantum-mechanical acid generation is then combined with
arxiv +1 more source
Quantum theory of an electromagnetic observer: classically behaving macroscopic systems and emergence of classical world in quantum electrodynamics [PDF]
Phys Rev A92, 022122 (2015), 2015 Quantum electrodynamics under conditions of distinguishability of interacting matter entities, and of controlled actions and back-actions between them, is considered. Such "mesoscopic quantum electrodynamics" is shown to share its dynamical structure with the classical stochastic electrodynamics.
arxiv +1 more source
Progress in Establishing a Connection Between the Electromagnetic Zero-Point Field and Inertia [PDF]
, 1999 We report on the progress of a NASA-funded study being carried out at the Lockheed Martin Advanced Technology Center in Palo Alto and the California State University in Long Beach to investigate the proposed link between the zero-point field of the ...
Haisch, Bernhard, Rueda, Alfonso
core +3 more sources
On the physical properties of memristive, memcapacitive, and meminductive systems [PDF]
, 2013 We discuss the physical properties of realistic memristive, memcapacitive and meminductive systems. In particular, by employing the well-known theory of response functions and microscopic derivations, we show that resistors, capacitors and inductors with
Di Ventra, M., Pershin, Y. V.
core +1 more source
Noncommutative probability in classical systems [PDF]
, 2002 Two examples of the situation when the classical observables should be described by a noncommutative probability space are investigated. Possible experimental approach to find quantum-like correlations for classical disordered systems is discussed.
Accardi +11 more
core +2 more sources