Search results for "elementary"

showing 10 items of 863 documents

Elementary theory and brief history

1991

In the history of the theory of deuteron photodisintegration one may distinguish roughly three periods: (i) the primitive period of the elementary theory using very simple wave functions and forces and considering lowest multipoles (E1, M1) only, (ii) the classical period still in the framework f conventional nuclear physics, but using realstic forces with correspondingly elaborate wave functions and considering also higher multipole transitions, (ii) the post-classic period with explicit treatment of subnuclear degrees of freedom like meson and isobar degrees of freedom and very recently quark-gluon degrees of freedom.

PhysicsTheoretical physicsMesonPhotodisintegrationSimple (abstract algebra)Nuclear TheoryDegrees of freedomIsobarElementary theoryNuclear ExperimentMultipole expansionWave function
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A Graph-Theoretical Approach to Calculate Vibrational Energies of Atomic and Subatomic Systems

2012

One of the challenges still pending in string theory and other particle physics related fields is the accurate prediction of the masses of the elementary particles defined in the standard model. In this paper an original algorithm to assign graphs to each of these particles is proposed. Based on this mapping, we demonstrate that certain indices associated with the topology of the graph (graph theoretical indices) are very effective in predicting the masses of the particles. Specifically, the spectral moments of the graph adjacency matrix weighted by edge degrees play a key role in the excellent correlations found. Moreover, the same topological pattern is found in other well known quantum s…

PhysicsTheoretical physicsPhysical systemGraph theoryElementary particleSubatomic particleAdjacency matrixParticle in a boxTopology (chemistry)Standard ModelOpen Journal of Physical Chemistry
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Central region in relativistic heavy ion collisions; results from hydrodynamic calculations and cascade simulation

1988

Results of three dimensional hydrodynamic calculations with boost invariant longitudinal expansion are presented with special emphasis on the transverse momentum spectra of hadrons and production rates of dileptons. The effect and signatures of transverse collective motion are discussed in detail. The hydrodynamic results which are based on the assumption of the existence of a first order phase transition and formation of an equilibrium mixed phase are compared with cascade simulation where the mixed phase is modelled in terms of plasma droplets embedded in a pion gas. The comparison shows a great deal of similarity between the two approaches lending further support for the hydrodynamic app…

PhysicsTransverse planePhase transitionPionCascadeElementary particlePlasmaMechanicsInvariant (physics)Atomic physicsQuantum field theory
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Precision ground state Hfs-separation of137Ba

1981

Ba+ ions are confined in a r.f. quadrupole trap for periods of 1 day. Spectral resolution of 1.5 · 10−9 has been achieved in an optical double resonance experiment to determine the ground state hfs separation of 8 GHz.

PhysicsTrap (computing)Nuclear and High Energy PhysicsQuadrupoleResonanceNuclear fusionElementary particlePhysics::Atomic PhysicsAtomic physicsSpectral resolutionGround stateIonZeitschrift f�r Physik A Atoms and Nuclei
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Finite renormalization effects in the induceds¯dHvertex

1986

The finite renormalization contributions to the s-bard-italicH-italic vertex are examined in the standard model. They are explicitly shown to cancel each other among diagrams, so that the lower bound on the Higgs-boson mass M-italic/sub H-italic/>325 MeV is not affected by such effects.

PhysicsVertex (graph theory)Computer Science::Information RetrievalHigh Energy Physics::PhenomenologyQuark modelFísicaLie groupElementary particleSymmetry groupUpper and lower boundsRenormalizationStandard Model (mathematical formulation)Quantum mechanicsPhysical Review D
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Zeeman Spectroscopy in Penning Traps

2018

Abstract Penning traps are the instruments of choice to determine the magnetic moments of long lived or stable charged particles. The virtual absence of collisions with background molecules when working in ultra-high vacuum, the small volume which the trapped particles occupy at low kinetic energies, and the extremely long observation and coherence times allow for very high precision in Zeeman spectroscopy. When applied to singly ionized multielectron atoms the experiments serve for tests of atomic structure calculations. The magnetic moments in few-electron systems such as hydrogen- or lithium-like highly charged ions can be calculated with remarkable precision in the frame of bound-state …

PhysicsZeeman effectMagnetic momentElementary particleKinetic energy01 natural sciencesCharged particle010305 fluids & plasmasIonsymbols.namesakeIonization0103 physical sciencessymbolsPhysics::Atomic PhysicsAtomic physics010306 general physicsSpectroscopy
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Relativistic J-dependence of the isotope shift in the 6s-6p doublet of Ba II

1984

The collinear laser-ion beam technique has been used to measure the isotope shift and hyperfine structure in the 6s-6p doublet (4,934A, 4,554A) of Ba II for all seven stable isotopes. The influence of the excited2P1/2 and2P3/2 states on the field shift leads to a difference of 2.5(3)% in the electronicF factors. The specific mass shifts differ by {A′-A} 2.2(3) MHz which corresponds to about 12% of the normal mass shift.

Physicschemistry.chemical_classificationNuclear and High Energy PhysicsIsotopeStable isotope ratioElementary particleMolecular electronic transitionchemistryKinetic isotope effectNuclear fusionNuclear Physics - ExperimentAtomic physicsHyperfine structureInorganic compoundZeitschrift f�r Physik A Atoms and Nuclei
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ISOLTRAP Mass Measurements for Weak-Interaction Studies

2005

International audience; The conserved-vector-current (CVC) hypothesis of the weak interaction and the unitarity of the Cabibbo-Kobayashi-Maskawa (CKM) matrix are two fundamental postulates of the Standard Model. While existing data on CVC supports vector current conservation, the unitarity test of the CKM matrix currently fails by more than two standard deviations. High-precision mass measurements performed with the ISOLTRAP experiment at ISOLDE/CERN provide crucial input for these fundamental studies by greatly improving our knowledge of the decay energy of super-allowed beta decays. Recent results of mass measurements on the beta emitters 18Ne, 22Mg, 34Ar, and 74Rb as pertaining to weak-i…

Physicselementary particle weak interactionsParticle physicsLarge Hadron ColliderUnitarity010308 nuclear & particles physicsCabibbo–Kobayashi–Maskawa matrixHigh Energy Physics::Phenomenology12.15.Hh 23.40.Bw 11.40.HaWeak interaction[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]01 natural sciencesISOLTRAPStandard ModelNuclear physicsMatrix (mathematics)Decay energy0103 physical sciencesHigh Energy Physics::Experiment010306 general physicsbeta-decay
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Post-editorial of the special issue "Wormholes in space-time: theory and facts"

2020

Wormholes made their first appearance in gravitational physics as soon as in 1916 but, as with their black hole cousins, it took a long time and effort for their true nature to be properly understood [...]

Physicslcsh:QC793-793.5010308 nuclear & particles physicsSpace timelcsh:Elementary particle physicsGeneral Physics and AstronomyFísica01 natural sciencesGravitationBlack holeTheoretical physicsn/a0103 physical sciencesWormhole010303 astronomy & astrophysics
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Role of Single-Particle Energies in Microscopic Interacting Boson Model Double Beta Decay Calculations

2021

Single-particle level energies form a significant input in nuclear physics calculations where single-particle degrees of freedom are taken into account, including microscopic interacting boson model investigations. The single-particle energies may be treated as input parameters that are fitted to reach an optimal fit to the data. Alternatively, they can be calculated using a mean field potential, or they can be extracted from available experimental data, as is done in the current study. The role of single-particle level energies in the microscopic interacting boson model calculations is discussed with special emphasis on recent double beta decay calculations.

Physicslcsh:QC793-793.5single-particle energieslcsh:Elementary particle physicsDegrees of freedom (physics and chemistry)General Physics and Astronomyhiukkasfysiikkaneutrinoless double beta decayNuclear physicsMean field theorymicroscopic interacting boson modelDouble beta decayParticleInteracting boson modelydinfysiikka
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