Search results for " ELECTRODYNAMICS"

showing 10 items of 813 documents

Higher-order proton structure corrections to the Lamb shift in muonic hydrogen

2011

The recent conundrum with the proton charge radius inspires reconsideration of the corrections that enter into determinations of the proton size. We study the two-photon proton-structure corrections, with special consideration of the non-pole subtraction term in the dispersion relation, and using fits to modern data to evaluate the energy contributions. We find that individual contributions change more than the total, and present results with error estimates.

PhysicsPhotonNuclear TheoryHydrogenProtonAtomic Physics (physics.atom-ph)010308 nuclear & particles physicsFOS: Physical scienceschemistry.chemical_element01 natural sciencesAtomic and Molecular Physics and OpticsPhysics - Atomic Physics3. Good healthTerm (time)Lamb shiftNuclear Theory (nucl-th)High Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)chemistryCharge radiusQuantum electrodynamicsDispersion relation0103 physical sciences010306 general physicsExotic atomPhysical Review A
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Observation of high-purity single photons hopping between optical cavities

2014

We experimentally demonstrate high-purity single photons hopping coherently between coupled optical cavities. The system shows high performance also as a controllable single-photon source, which emits single photons with a negative Wigner function.

PhysicsPhotonQuantum mechanicsCavity quantum electrodynamicsPhysics::OpticsWigner distribution functionQuantum informationCoupled mode theoryQuantum memory
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Probing fast oscillating scalar dark matter with atoms and molecules

2021

Light scalar Dark Matter with scalar couplings to matter is expected within several scenarios to induce variations in the fundamental constants of nature. Such variations can be searched for, among other ways, via atomic spectroscopy. Sensitive atomic observables arise primarily due to possible changes in the fine-structure constant or the electron mass. Most of the searches to date have focused on slow variations of the constants (i.e. modulation frequencies $<$ 1 Hz). In a recent experiment \mbox{[Phys. Rev. Lett. 123, 141102 (2019)]} called WReSL (Weekend Relaxion-Search Laboratory), we reported on a direct search for rapid variations in the radio-frequency band. Such a search is particu…

PhysicsPhysics and Astronomy (miscellaneous)Atomic Physics (physics.atom-ph)010308 nuclear & particles physicsMaterials Science (miscellaneous)Dark matterAtoms in moleculesScalar (mathematics)FOS: Physical sciencesObservableAtomic spectroscopyElectron53001 natural sciencesAtomic and Molecular Physics and OpticsPhysics - Atomic PhysicsHigh Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)Quantum electrodynamics0103 physical sciencesModulation (music)ddc:530Electrical and Electronic Engineering010306 general physicsConstant (mathematics)Quantum Science and Technology
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ELECTROMAGNETIC CONTROL OF DYNAMICAL LOCALIZATION CONDITIONS IN 1D LATTICES WITH LONG-RANGE INTERSITE INTERACTIONS

2009

In this paper we investigate the possibility of controlling dynamical localization conditions for a charged particle confined in a 1D lattice biased with a dc-bichromatic field and long-range intersite interactions. We derive the quasi-energy spectrum of the system proving that the tunneling dynamics of the particle can be destroyed provided that the parameters of the external irradiating electric field are properly chosen.

PhysicsPhysics and Astronomy (miscellaneous)Condensed matter physicsQuantum electrodynamicsElectric fieldLattice (order)Quantum controlCharged particleQuantum tunnellingInternational Journal of Quantum Information
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The SVZ plasmon

1985

The sum rule technique of Shifman, Vainshtein and Zakharov is applied to a non-relativistic many-body system, the homogeneous, degenerate electron gas. The operator product expansion for the nonrelativistic correlation function is derived and shown to be equivalent in lowest order to a moment expansion. The nonperturbative terms in this expansion characterize the interacting ground state (“vacuum”) of the system. For the electron gas they can be related to the correlation energy which is very well known. Following as close as possible the SVZ procedure the mass of the plasmon (i.e. the dispersion coefficient of the collective plasma excitation) is calculated and compared with results from c…

PhysicsPhysics and Astronomy (miscellaneous)Correlation functionQuantum electrodynamicsQuantum mechanicsDegenerate energy levelsSum rule in quantum mechanicsOperator product expansionFermi gasGround stateEngineering (miscellaneous)PlasmonExcitationZeitschrift f�r Physik C Particles and Fields
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A dynamical dark energy model with a given luminosity distance

2011

It is assumed that the current cosmic acceleration is driven by a scalar field, the Lagrangian of which is a function of the kinetic term only, and that the luminosity distance is a given function of the red-shift. Upon comparison with Baryon Acoustic Oscillations (BAOs) and Cosmic Microwave Background (CMB) data the parameters of the models are determined, and then the time evolution of the scalar field is determined by the dynamics using the cosmological equations. We find that the solution is very different than the corresponding solution when the non-relativistic matter is ignored, and that the universe enters the acceleration era at larger red-shift compared to the standard $\Lambda CD…

PhysicsPhysics and Astronomy (miscellaneous)Cosmic microwave backgroundTime evolutionFOS: Physical sciencesAcceleration (differential geometry)General Relativity and Quantum Cosmology (gr-qc)Kinetic termAstrophysics::Cosmology and Extragalactic AstrophysicsGeneral Relativity and Quantum CosmologyQuantum electrodynamicsDark energyBaryon acoustic oscillationsLuminosity distanceScalar field
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Effects of the Lorentz invariance violation in Coulomb interaction in nuclei and atoms

2016

Anisotropy in the speed of light that has been constrained by Michelson-Morley-type experiments also generates anisotropy in the Coulomb interactions. This anisotropy can manifest itself as an energy anisotropy in nuclear and atomic experiments. Here the experimental limits on Lorentz violation in 21Ne are used to improve the limits on the Lorentz symmetry in the photon sector, namely the anisotropy of the speed of light and the Coulomb interactions, by 7 orders of magnitude in comparison with previous experiments: the speed of light is isotropic to a part in E-28.

PhysicsPhysics::General PhysicsPhotonNuclear Theory010308 nuclear & particles physicsAtomic Physics (physics.atom-ph)Lorentz transformationIsotropyGeneral Physics and AstronomyFOS: Physical sciencesLorentz covariance01 natural sciencesPhysics - Atomic PhysicsNuclear Theory (nucl-th)symbols.namesakeHigh Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)Orders of magnitude (time)Quantum electrodynamics0103 physical sciencesCoulombsymbolsSpeed of light010306 general physicsAnisotropy
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Mr. Maxwell's journey into hadron country (electromagnetic currents in nuclei)

1993

In these lectures an introduction is given into the main features of nuclear structure investigations by photoabsorption and electron scattering. After a brief review of the general structure of the electromagnetic interaction, the gauge conditions and low-energy theorems for the electromagnetic interaction operators are discussed. The various theoretical schemes for incorporating subnuclear degrees of freedom either as effective operators like the pion exchange current or explicitely like in the model of nuclear isobar configurations are reviewed. At the end, a few specific experiments are discussed as an illustration of what can be learned from such experiments.

PhysicsPionCurrent (mathematics)Quantum electrodynamicsNuclear TheoryHadronDegrees of freedom (physics and chemistry)Nuclear structureStructure (category theory)General Physics and AstronomyGauge (firearms)Electron scatteringCzechoslovak Journal of Physics
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Computing the nucleon Dirac radius directly at $Q^2=0$

2016

We describe a lattice approach for directly computing momentum derivatives of nucleon matrix elements using the Rome method, which we apply to obtain the isovector magnetic moment and Dirac radius. We present preliminary results calculated at the physical pion mass using a 2HEX-smeared Wilson-clover action. For removing the effects of excited-state contamination, the calculations were done at three source-sink separations and the summation method was used.

PhysicsPionIsovectorMagnetic momentHigh Energy Physics::LatticeLattice (order)Excited stateQuantum electrodynamicsNuclear TheoryGround stateNucleonProceedings of 34th annual International Symposium on Lattice Field Theory — PoS(LATTICE2016)
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Nonstationary oscillations in gyrotrons

2001

The onset of stochastic oscillations in gyrotrons is studied by means of the self-consistent theory describing nonstationary processes. Complicated alternating sequences of regions of stationary, automodulation, and chaotic oscillations are found in the plane of the generalized gyrotron variables: cyclotron resonance mismatch and dimensionless current. The results of the investigations are important in connection with attempts to increase the output power of gyrotrons by raising the current.

PhysicsPlane (geometry)Cyclotron resonanceCondensed Matter PhysicsMicrowave oscillatorslaw.inventionPower (physics)Nuclear magnetic resonancePhysics::Plasma PhysicslawGyrotronQuantum electrodynamicsCurrent (fluid)Chaotic oscillationsDimensionless quantityPhysics of Plasmas
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