4.1. Energy-time dispersive signature
... Alfvén waves in the fluid-kinetic simulations would be accompanied by bursts of accelerated electrons. A particle-in-cell (PIC) simulation was used by Clark and Seyler [1999] in proposing that nonlinear inertial Alfvén waves in the electrostatic limit are capable of producing suprathermal electron b ...
... Alfvén waves in the fluid-kinetic simulations would be accompanied by bursts of accelerated electrons. A particle-in-cell (PIC) simulation was used by Clark and Seyler [1999] in proposing that nonlinear inertial Alfvén waves in the electrostatic limit are capable of producing suprathermal electron b ...
field concepts and the emergence of a holistic
... the actual understanding of quantum theory. The description of reality by isolated, context-independent, elementary systems such as quarks, electrons, atoms, or molecules is only permissible under certain specific experimental conditions, and these entities cannot in any way be considered as „fundam ...
... the actual understanding of quantum theory. The description of reality by isolated, context-independent, elementary systems such as quarks, electrons, atoms, or molecules is only permissible under certain specific experimental conditions, and these entities cannot in any way be considered as „fundam ...
Source
... amount of attributes that is enough for this simple line data model, but can make use of possible future developments of the models they point to. • light pink represent placeholder classes, and have no attributes in the current model (they are left here as reference for future possible developments ...
... amount of attributes that is enough for this simple line data model, but can make use of possible future developments of the models they point to. • light pink represent placeholder classes, and have no attributes in the current model (they are left here as reference for future possible developments ...
Spin-density wave in a quantum wire
... dimensional system of electrons with spin-rotationally invariant interaction between particles (such as the usual Coulomb interaction) cannot have magnetically ordered ground state. At finite temperature any such order is destroyed by thermal fluctuations and the statement is known as the Mermin-Wag ...
... dimensional system of electrons with spin-rotationally invariant interaction between particles (such as the usual Coulomb interaction) cannot have magnetically ordered ground state. At finite temperature any such order is destroyed by thermal fluctuations and the statement is known as the Mermin-Wag ...
The Universal Extra Dimensional Model with S^2/Z_2 extra
... Qualitative features of the quantum corrections Overall structure is similar to mUED There are bulk contribution and boundary contribution KK photon receive negative mass correction First KK photon would be the Dark matter candidate ...
... Qualitative features of the quantum corrections Overall structure is similar to mUED There are bulk contribution and boundary contribution KK photon receive negative mass correction First KK photon would be the Dark matter candidate ...
Capacitive Coupling of Atomic Systems to Mesoscopic Conductors
... Ideally one would like to trap the Rydberg atoms to ensure that the motional state remains decoupled from the evolution of the internal states. Such trapping of Rydberg atoms has not yet been demonstrated, but even without trapping the Rydberg levels it is still possible to avoid a significant deter ...
... Ideally one would like to trap the Rydberg atoms to ensure that the motional state remains decoupled from the evolution of the internal states. Such trapping of Rydberg atoms has not yet been demonstrated, but even without trapping the Rydberg levels it is still possible to avoid a significant deter ...
attosecond light pulses
... packet away from the ion, but soon the field wave reverses direction and the electron wave packet is pushed back [2]. Parts of the wave packet return and pass over their first point of origin, completing the interferometer (see figure 5). In figure 5, the motion of the electron is represented by the ...
... packet away from the ion, but soon the field wave reverses direction and the electron wave packet is pushed back [2]. Parts of the wave packet return and pass over their first point of origin, completing the interferometer (see figure 5). In figure 5, the motion of the electron is represented by the ...
Chapter I Electromagnetic field theory
... An electromagnetic pump A direct-current motor Summary ...
... An electromagnetic pump A direct-current motor Summary ...
Capture of the lamb: Diffusing predators seeking a diffusing prey
... statistics,8 moves to the right as 冑4D L t ln N, where D L is the lion diffusivity. Because this time dependence matches that of the lamb’s diffusion, the survival probability depends intimately on these two motions,9–11 with the result that S N (t)⬃t ⫺  N and  N ⬀ln N. The logarithmic dependence ...
... statistics,8 moves to the right as 冑4D L t ln N, where D L is the lion diffusivity. Because this time dependence matches that of the lamb’s diffusion, the survival probability depends intimately on these two motions,9–11 with the result that S N (t)⬃t ⫺  N and  N ⬀ln N. The logarithmic dependence ...
Classical harmonic oscillator with quantum energy spectrum
... electron, which do not satisfy the Bohr-Sommerfeld rules of selection were rejected and considered as impossible in the old quantum mechanics. A weakness of the old quantum theory was its inconsistency. On one hand the electron motion in atom remained a classical one, but on the other hand the new ...
... electron, which do not satisfy the Bohr-Sommerfeld rules of selection were rejected and considered as impossible in the old quantum mechanics. A weakness of the old quantum theory was its inconsistency. On one hand the electron motion in atom remained a classical one, but on the other hand the new ...
An Extreme form of Superactivation for Quantum Zero-Error
... In order to prove our results, we need some basic notions from algebraic geometry (see e.g. Ref. [7]). A key concept is that of a Zariski-closed set, and the resulting Zariski topology. We will only ever work over base fields C or R, so for our purposes Zariski-closed sets are sets defined by a coll ...
... In order to prove our results, we need some basic notions from algebraic geometry (see e.g. Ref. [7]). A key concept is that of a Zariski-closed set, and the resulting Zariski topology. We will only ever work over base fields C or R, so for our purposes Zariski-closed sets are sets defined by a coll ...
Three particle Hyper Entanglement: Teleportation and Quantum Key
... state [1], super dense coding of information [2] and secure communication [3]. An arbitrary qubit can be teleported from one particle to another with the use of an entangled pair of particles, which had been experimentally verified in different quantum systems [4, 5]. However, distinguishing all the ...
... state [1], super dense coding of information [2] and secure communication [3]. An arbitrary qubit can be teleported from one particle to another with the use of an entangled pair of particles, which had been experimentally verified in different quantum systems [4, 5]. However, distinguishing all the ...
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.