The process of electron acceleration in magnetic reconnection
... Magnetic reconnection is a fundamental plasma transport process which rapidly converts magnetic energy into plasma energy1-3. This conversion involves topological changes of the magnetic fields, and it also leads to both heating and acceleration of ions and electrons. Magnetic reconnection is used t ...
... Magnetic reconnection is a fundamental plasma transport process which rapidly converts magnetic energy into plasma energy1-3. This conversion involves topological changes of the magnetic fields, and it also leads to both heating and acceleration of ions and electrons. Magnetic reconnection is used t ...
Charge to Mass Ratio of the Electron
... paper should include a single best value for e/m. You must decide whether you should combine the two values obtained with different techniques to report a single, better value or justify using just one of them. (Don’t forget that lab partners are also supposed to combine their individual readings in ...
... paper should include a single best value for e/m. You must decide whether you should combine the two values obtained with different techniques to report a single, better value or justify using just one of them. (Don’t forget that lab partners are also supposed to combine their individual readings in ...
Hirota dynamics of quantum integrability
... • No single analyticity friendly gauge for T’s of right, left and upper bands. We parameterize T’s of 3 bands in different, analyticity friendly gauges, also respecting their reality and certain symmetries. • Quantum analogue of classical ...
... • No single analyticity friendly gauge for T’s of right, left and upper bands. We parameterize T’s of 3 bands in different, analyticity friendly gauges, also respecting their reality and certain symmetries. • Quantum analogue of classical ...
Pauli Exclusion Principle, the Dirac Void and the Preponderance of
... in its bare form – without the need of the Pauli Exclusion Principle; can – via, its internal logic – beautifully explain the stability of the Dirac Void i.e., the empty Dirac Sea. There is no need for one to ‘uglify’ Dirac’s otherwise beautiful, self-contained and consistent theory by indiscriminat ...
... in its bare form – without the need of the Pauli Exclusion Principle; can – via, its internal logic – beautifully explain the stability of the Dirac Void i.e., the empty Dirac Sea. There is no need for one to ‘uglify’ Dirac’s otherwise beautiful, self-contained and consistent theory by indiscriminat ...
Introduction to Quantum Information
... celebrated theorem that bears his name (of which more below) (Bayes 1763). His key idea was that probabilities depend on what you know; if we acquire additional information then this modifies the probabilities. Today such reasoning is uncontentious and forms part of the prevailing paradigm in much o ...
... celebrated theorem that bears his name (of which more below) (Bayes 1763). His key idea was that probabilities depend on what you know; if we acquire additional information then this modifies the probabilities. Today such reasoning is uncontentious and forms part of the prevailing paradigm in much o ...
Multi-dimensional spectroscopy Thomas la Cour Jansen EA GB
... to the symmetry. These transform with an odd-order of the cartesian coordinates, which in centrosymmetric systems never belong to the total symmetric irreducible representation [19]. Or in other words, the polarization in systems with such symmetry must change sign when the optical electric fields a ...
... to the symmetry. These transform with an odd-order of the cartesian coordinates, which in centrosymmetric systems never belong to the total symmetric irreducible representation [19]. Or in other words, the polarization in systems with such symmetry must change sign when the optical electric fields a ...
I am grateful to Mike Weismann for guiding much of this discussion
... The “particle/wave duality” discovered through Planck’s famous E = hν, Einstein’s demonstration of the consequences for the photon and for vibrational energy levels, and the extension through de Broglie’s suggestion that objects of mass in the quantum range should show detectable wavelike properties ...
... The “particle/wave duality” discovered through Planck’s famous E = hν, Einstein’s demonstration of the consequences for the photon and for vibrational energy levels, and the extension through de Broglie’s suggestion that objects of mass in the quantum range should show detectable wavelike properties ...
quantum teleportation
... regarding the future behaviour of the system. Since these conditions constitute an inherent element of the description of any phenomenon to which the term “physical reality” can be properly attached, we see that the argumentation of the mentioned authors does not justify their conclusions that quant ...
... regarding the future behaviour of the system. Since these conditions constitute an inherent element of the description of any phenomenon to which the term “physical reality” can be properly attached, we see that the argumentation of the mentioned authors does not justify their conclusions that quant ...
Holographic Metals and the Fractionalized Fermi
... ultimately lift the ground state entropy. Some of the considerations of Refs. [6,10] may already represent progress in this discussion. Refs. [12,13] also discussed the nature of the quantum phase transition between the FFL and FL phases. It was argued that this was a Higgs transition which quenched ...
... ultimately lift the ground state entropy. Some of the considerations of Refs. [6,10] may already represent progress in this discussion. Refs. [12,13] also discussed the nature of the quantum phase transition between the FFL and FL phases. It was argued that this was a Higgs transition which quenched ...
Quantum electrodynamics
In particle physics, quantum electrodynamics (QED) is the relativistic quantum field theory of electrodynamics. In essence, it describes how light and matter interact and is the first theory where full agreement between quantum mechanics and special relativity is achieved. QED mathematically describes all phenomena involving electrically charged particles interacting by means of exchange of photons and represents the quantum counterpart of classical electromagnetism giving a complete account of matter and light interaction.In technical terms, QED can be described as a perturbation theory of the electromagnetic quantum vacuum. Richard Feynman called it ""the jewel of physics"" for its extremely accurate predictions of quantities like the anomalous magnetic moment of the electron and the Lamb shift of the energy levels of hydrogen.