Search results for "MAGNETIC DIPOLE"

showing 10 items of 217 documents

Electrong-factor determinations in Penning traps

2013

The magnetic moment of the electron, expressed by the g-factor in units of the Bohr magneton, is a key quantity in the theory of quantum electrodynamics (QED). Experiments using single particles confined in Penning traps have provided very precise values of the g-factor for the free electron as well as the electron bound in hydrogen-like ions. In this paper the status of these experiments is reviewed. The results allow testing calculations of higher order Feynman diagrams. Comparison of experimental and theoretical results for free and bound particles show no discrepancy within the limits of error, thus representing to date the most sensitive test of QED. Moreover, the g-factor provides a u…

PhysicsMagnetic momentg-factorGeneral Physics and AstronomyFine-structure constantElectronPenning trap01 natural sciencesElectron magnetic dipole moment010305 fluids & plasmasBohr magnetonsymbols.namesake0103 physical sciencessymbolsFeynman diagramAtomic physics010306 general physicsAnnalen der Physik
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Fits of the baryon magnetic moments

1981

PhysicsMagnetizationAnomalous magnetic dipole momentNeutron magnetic momentCondensed matter physicsProton magnetic momentNuclear magnetic momentGeneral Physics and AstronomyMagnetic dipoleElectron magnetic dipole momentSpin magnetic momentLettere Al Nuovo Cimento Series 2
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Dynamics of a flexible magnetic chain in a rotating magnetic field.

2004

The model of an elastic magnetic rod is applied for a study of a behavior of the flexible magnetic particle chain in a rotating magnetic field. By numerical simulation it is shown that behavior of a flexible magnetic chain is characterized by the existence of a critical frequency beyond which the dynamics of the rod is periodic with subsequent stages of bending and straightening. The value of the critical frequency found is explained by a simple model. Below the critical frequency the chain is bent and rotates synchronously with a field. It is illustrated that in particular cases the considered model reproduces phenomena observed experimentally and numerically for the magnetic particle chai…

PhysicsMagnetizationRotating magnetic fieldClassical mechanicsField (physics)Critical frequencyMagnetic energyMagnetorheological fluidMagnetic particle inspectionMagnetic dipolePhysical review. E, Statistical, nonlinear, and soft matter physics
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Electromagnetic properties of neutrinos in a medium

1989

We show that, contrary to the situation in the vacuum, a Majorana neutrino can have electric and magnetic dipole moments in a medium. This is because of new contributions, equal for a particle and its antiparticle, that can arise only in a material background. For Dirac neutrinos, these contributions make the magnitudes of the dipole moments of the particle and the antiparticle unequal. We discuss the conditions which give rise to such effects, with particular attention to the role played by the discrete symmetries {ital C}, {ital P}, and {ital T}.

PhysicsMassless particleAntiparticleMAJORANAParticle physicsDipoleComputer Science::Information RetrievalHigh Energy Physics::ExperimentFermionNeutrinoMagnetic dipoleLeptonPhysical Review D
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Pion Photoproduction on the Nucleon and Light Nuclei

1994

Photo- and electroproduction of mesons are well suited tools to investigate the structure of hadrons. With the advent of electron accelerators with high current and large duty-factor, new classes of experiments including polarization degrees of freedom have become possible. Such investigations range from threshold production of mesons to detailed studies of nucleon resonances. In addition, there is the large field of meson production and propagation in the nuclear medium.

PhysicsMeson productionMesonAnomalous magnetic dipole momentHigh Energy Physics::PhenomenologyNuclear TheoryHadronElectronPolarization (waves)Nuclear physicsPionHigh Energy Physics::ExperimentNuclear ExperimentNucleon
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Study of the anomalous magnetic moment of the muon computed from the Adler function

2014

We compute the Adler function on the lattice from vacuum polarization data with twisted boundary conditions using numerical derivatives. The study is based on CLS ensembles with two flavours of $O(a)$ improved Wilson fermions. We extrapolate the lattice data for the Adler function to the continuum limit and to the physical pion mass and analyze its dependence on the momentum transfer. We discuss the application of this method to the extraction of the $u,d$ contribution to $a_\mu^{\mathrm{HLO}}$.

PhysicsMuonAnomalous magnetic dipole moment010308 nuclear & particles physicsHigh Energy Physics::LatticeMomentum transferHigh Energy Physics - Lattice (hep-lat)FOS: Physical scienceshep-latFermion01 natural sciencesPionHigh Energy Physics - LatticeQuantum electrodynamicsLattice (order)0103 physical sciencesBoundary value problemVacuum polarization010306 general physicsPoS(LATTICE2014)162
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The muon magnetic moment

1981

Muon mass and muon magnetic moment are not calculabIe within the theory of Quantum Eiectrodynamics; they rather define the reference acaie in which masses and energies should be determined when muons are used to test QED or to search for anomalous muon coupiings which couid provide the "raison d'@tre" for the muon. Oniy the anomaious part of the muon magnetic moment experimentaily determined with remarkable precision I), can be oaIculated 2~" Theory and experiment agree preciseiy once corrections being appiied for hadronic and weak processes which poiiute the immaculated fieid of QED at high momentum transfers. Muon mass and muon magnetic moment are, in particular, needed for the interpreta…

PhysicsMuonAnomalous magnetic dipole momentNeutron magnetic momentPhysics::Instrumentation and DetectorsMuoniumMuon spin spectroscopyElectron magnetic dipole momentSpin magnetic momentNuclear physicsNuclear magnetic momentPhysics::Accelerator PhysicsHigh Energy Physics::ExperimentPhysics::Atomic Physics
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First observation of trapped high-field seeking ultracold neutron spin states

2011

Ultracold neutrons were stored in a volume, using a magnetic dipole field shutter. Radial confinement was provided by material walls. Low-field seeking neutrons were axially confined above the magnetic field. High-field seeking neutrons are trapped inside the magnetic field. They can systematically shift the measured neutron lifetime to lower values in experiments with magnetic confinement. ISSN:0370-2693 ISSN:0031-9163 ISSN:1873-2445

PhysicsNeutron lifetimeNuclear and High Energy PhysicsSpin statesCondensed matter physicsUltracold neutron storage010308 nuclear & particles physicsAstrophysics::High Energy Astrophysical PhenomenaNuclear TheoryMagnetic confinement fusionUltracold neutrons; Ultracold neutron storage; Neutron lifetime[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]01 natural sciences3. Good healthMagnetic fieldShutter0103 physical sciencesUltracold neutronsNeutron010306 general physicsAxial symmetryNuclear ExperimentUltracold neutronsMagnetic dipolePhysics Letters B
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Separation of proton polarizabilities with the beam asymmetry of Compton scattering

2013

We propose to determine the magnetic dipole polarizability of the proton directly from the beam asymmetry of low-energy Compton scattering based on the fact that the leading non-Born contribution to the asymmetry is due to the magnetic polarizability alone; the electric polarizability cancels out. The beam asymmetry thus provides the simplest observable with a clean separation of the magnetic polarizability from the electric one. Introducing polarizabilities in a Lorentz-invariant fashion we compute the higher-order (recoil) effects of polarizabilities on beam asymmetry and show that these effects are most suppressed in forward kinematics. With the prospects of precision Compton experiments…

PhysicsNuclear TheoryProtonmedia_common.quotation_subjectCompton scatteringGeneral Physics and AstronomyFOS: Physical sciencesAsymmetryNuclear physicsNuclear Theory (nucl-th)High Energy Physics - PhenomenologyRecoilHigh Energy Physics - Phenomenology (hep-ph)PolarizabilityPhysics::Atomic and Molecular ClustersPhysics::Accelerator PhysicsPhysics::Atomic PhysicsAtomic physicsPhysics::Chemical PhysicsNuclear Experiment (nucl-ex)Nuclear ExperimentMicrotronMagnetic dipoleBeam (structure)media_common
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Lifetime measurements and shape coexistence inDy144

2010

The known level scheme of {sup 144}Dy has been extended and lifetime measurements have been made with the recoil-distance Doppler-shift method. Reduced transition probabilities and deformations have been determined for four low-lying transitions. These states form part of the first observed band crossing, giving information on the change in nuclear deformation resulting from the rearrangement of h{sub 11/2} protons in the nucleus. Two bands built upon excited 10{sup +} states have been assigned pi(h{sub 11/2}){sup 2} prolate and nu(h{sub 11/2}){sup -2} oblate configurations with tau=12(2)ps and 0.01<tau < or approx. 16ns, respectively. These long lifetimes are reasoned to be a result of sha…

PhysicsNuclear and High Energy Physics010308 nuclear & particles physicsBranching fractionHadron01 natural sciencesDipoleExcited state0103 physical sciencesAtomic physics010306 general physicsSpin (physics)NucleonMagnetic dipoleDimensionless quantityPhysical Review C
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