Search results for " Levels"

showing 10 items of 483 documents

Discovery of an Exceptionally Strong β -Decay Transition of F20 and Implications for the Fate of Intermediate-Mass Stars

2019

A significant fraction of stars between 7 and 11 solar masses are thought to become supernovae, but the explosion mechanism is unclear. The answer depends critically on the rate of electron capture on ^{20}Ne in the degenerate oxygen-neon stellar core. However, because of the unknown strength of the transition between the ground states of ^{20}Ne and ^{20}F, it has not previously been possible to fully constrain the rate. By measuring the transition, we establish that its strength is exceptionally large and that it enhances the capture rate by several orders of magnitude. This has a decisive impact on the evolution of the core, increasing the likelihood that the star is (partially) disrupte…

PhysicsSolar massThermonuclear fusionElectron captureDegenerate energy levelsGeneral Physics and AstronomyAstrophysics01 natural sciencesStarsNeutron starSupernovaOrders of magnitude (time)0103 physical sciencesAstrophysics::Solar and Stellar Astrophysics010306 general physicsPhysical Review Letters
researchProduct

Infrared radiation harmonic generation in degenerate semiconductors

2004

The basic properties of infrared laser radiation odd harmonic generation due to electron-charged impurity collisions in degenerate semiconductors are investigated. It is found that in the case of relatively weak fields, the electron Fermi distribution is the cause of an anomalous suppression of harmonic radiation. In the case of strong fields, the effect of the selective suppression of single harmonics is established.

PhysicsSolid-state physicsCondensed matter physicsInfraredHarmonicsDegenerate energy levelsFar-infrared laserHigh harmonic generationElectronAtomic physicsCondensed Matter PhysicsElectronic Optical and Magnetic MaterialsDegenerate semiconductor
researchProduct

Impact of neutrino properties on the estimation of inflationary parameters from current and future observations

2016

We study the impact of assumptions about neutrino properties on the estimation of inflationary parameters from cosmological data, with a specific focus on the allowed contours in the $n_s/r$ plane. We study the following neutrino properties: (i) the total neutrino mass $ M_\nu =\sum_i m_i$; (ii) the number of relativistic degrees of freedom $N_{eff}$; and (iii) the neutrino hierarchy: whereas previous literature assumed 3 degenerate neutrino masses or two massless neutrino species (that do not match neutrino oscillation data), we study the cases of normal and inverted hierarchy. Our basic result is that these three neutrino properties induce $< 1 \sigma$ shift of the probability contours in…

PhysicsSpectral indexParticle physicsCosmology and Nongalactic Astrophysics (astro-ph.CO)010308 nuclear & particles physicsDegenerate energy levelsCosmic microwave backgroundScalar (mathematics)FOS: Physical sciencesAstrophysics::Cosmology and Extragalactic Astrophysics01 natural sciencesBaryonMassless particleHigh Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)0103 physical sciencesNeutrinoNeutrino oscillation010303 astronomy & astrophysicsAstrophysics - Cosmology and Nongalactic Astrophysics
researchProduct

Evolution from γ -soft to stable triaxiality in Nd136 as a prerequisite of chirality

2018

The level structure of Nd136 has been investigated using the Mo100(Ar40,4n) reaction and the JUROGAM II+RITU+GREAT setup. The level scheme has been extended significantly. Many new bands have been identified both at low and high spin, among which are five nearly degenerate bands interpreted as chiral partners. Excitation energies, spins, and parities of the previously known bands are revised and firmly established, and some previously known bands have been revised. Configurations are assigned to the observed bands based on cranked Nilsson-Strutinsky calculations. The band structure of Nd136 is now clarified and the various types of single-particle and collective excitations are well underst…

PhysicsSpins010308 nuclear & particles physicsDegenerate energy levelsNuclear structure01 natural sciencesMolecular physics0103 physical sciencesQuasiparticleLevel structure010306 general physicsElectronic band structureExcitationSpin-½Physical Review C
researchProduct

AN OPTICAL PLAQUETTE: MINIMUM EXPRESSIONS OF TOPOLOGICAL MATTER

2009

Topological matter is an unconventional form of matter: it exhibits a global hidden order which is not associated with the spontaneous breaking of any symmetry. The defects of this exotic type of order are anyons, quasiparticles with fractional statistics. Moreover, when living on a surface with non-trivial topology, like a plane with a hole or a torus, this type of matter develops a number of degenerate states which are locally indistinguishable and could be used to build a quantum memory naturally resistant to errors. Except for the fractional quantum Hall effect there is no experimental evidence as to the existence of topologically ordered phases, and it remains a huge challenge to devel…

PhysicsSpinsQuantum mechanicsDegenerate energy levelsFractional quantum Hall effectQuasiparticleTopological orderQuantum Hall effectTopologyTopological quantum computerQuantum dimer modelsPushing the Frontiers of Atomic Physics
researchProduct

Supersymmetric associated vector coherent states and generalized Landau levels arising from two-dimensional supersymmetry

2008

We describe a method for constructing vector coherent states for quantum supersymmetric partner Hamiltonians. The method is then applied to such partner Hamiltonians arising from a generalization of the fractional quantum Hall effect. Explicit examples are worked out.

PhysicsStatistical and Nonlinear PhysicsSupersymmetryLandau quantizationEigenfunctionQuantum mechanicsFractional quantum Hall effectCoherent statesSupersymmetric quantum mechanicsQuantumSettore MAT/07 - Fisica MatematicaMathematical PhysicsEigenvalues and eigenvectorsLandau levelsMathematical physics
researchProduct

Orbital-selective Mott transitions in the anisotropic two-band Hubbard model at finite temperatures

2005

The anisotropic degenerate two-orbital Hubbard model is studied within dynamical mean-field theory at low temperatures. High-precision calculations on the basis of a refined quantum Monte Carlo (QMC) method reveal that two distinct orbital-selective Mott transitions occur for a bandwidth ratio of 2 even in the absence of spin-flip contributions to the Hund exchange. The second transition -- not seen in earlier studies using QMC, iterative perturbation theory, and exact diagonalization -- is clearly exposed in a low-frequency analysis of the self-energy and in local spectra.

PhysicsStrongly Correlated Electrons (cond-mat.str-el)Hubbard modelCondensed matter physicsQuantum Monte CarloDegenerate energy levelsFOS: Physical sciencesCondensed Matter PhysicsSpectral lineElectronic Optical and Magnetic MaterialsMott transitionCondensed Matter - Strongly Correlated ElectronsMean field theoryQuantum mechanicsStrongly correlated materialCondensed Matter::Strongly Correlated ElectronsAnisotropy
researchProduct

Structure of rotational bands in 253No

2009

In-beam gamma-ray and conversion electron spectroscopic studies have been performed on the 253 No nucleus. A strongly coupled rotational band has been identified and the improved statistics allows an assignment of the band structure as built on the $\ensuremath 9/2^-[734]_{\nu}$ ground state. The results agree with previously known transition energies but disagree with the tentative structural assignments made in earlier work.

PhysicsStrongly coupledNuclear and High Energy Physics[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th]010308 nuclear & particles physicsHadronStructure (category theory)Electron01 natural sciences0103 physical sciencesStrong couplingNuclear fusion21.10.-k Properties of nuclei; nuclear energy levels - 23.20.Lv γ transitions and level energies - 29.30.Dn Electron spectroscopy - 27.90.+b A ≤ 220Atomic physics010306 general physicsGround stateElectronic band structure
Eur. Phys. J. A 42, 333 (2009)

researchProduct

Squeezing induced by spontaneous rotational symmetry breaking

2009

In this communication we study in depth the phenomenon of quadrature squeezing generated via spontaneous rotational symmetry breaking discussed for the first time in [1]. The idea can be put in short as follows. Consider a degenerate optical parametric oscillator (DOPO) tuned to the first family of transverse modes at the signal frequency, and having perfectly spherical mirrors. When pumped above threshold with a Gaussian beam and within a classical description, it is easy to show that a TEM 10 mode with an arbitrary orientation (measured by θ at Fig. 1) emerges at the subharmonic, hence breaking the rotational symmetry of the system in the transverse plane. Quantum effects are then quite i…

PhysicsTransverse planeAngular momentumUncertainty principleQuantum mechanicsQuantum noiseDegenerate energy levelsRotational symmetryQuantum fluctuationGaussian beam
researchProduct

Faster Quantum Walk Search on a Weighted Graph

2015

A randomly walking quantum particle evolving by Schr\"odinger's equation searches for a unique marked vertex on the "simplex of complete graphs" in time $\Theta(N^{3/4})$. In this paper, we give a weighted version of this graph that preserves vertex-transitivity, and we show that the time to search on it can be reduced to nearly $\Theta(\sqrt{N})$. To prove this, we introduce two novel extensions to degenerate perturbation theory: an adjustment that distinguishes the weights of the edges, and a method to determine how precisely the jumping rate of the quantum walk must be chosen.

PhysicsVertex (graph theory)Quantum particleQuantum PhysicsDegenerate energy levelsFOS: Physical sciencesGraph theory01 natural sciencesAtomic and Molecular Physics and OpticsGraph010305 fluids & plasmasCombinatoricsQuantum mechanics0103 physical sciencesQuantum walk010306 general physicsQuantum Physics (quant-ph)
researchProduct