Search results for " gases"

showing 10 items of 941 documents

Exact Numerical Treatment of Finite Quantum Systems Using Leading-Edge Supercomputers

2005

Using exact diagonalization and density matrix renormalization group techniques a finite-size scaling study in the context of the Peierls-insulator Mott-insulator transition is presented. Program implementation on modern supercomputers and performance aspects are discussed.

Condensed Matter::Quantum GasesPhysicsLeading edgeDensity matrix renormalization groupCondensed Matter::Strongly Correlated ElectronsContext (language use)Statistical physicsScalingQuantum
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Laser-induced collective excitations in a two-component Fermi gas

2002

We consider the linear density response of a two-component (superfluid) Fermi gas of atoms when the perturbation is caused by laser light. We show that various types of laser excitation schemes can be transformed into linear density perturbations, however, a Bragg spectroscopy scheme is needed for transferring energy and momentum into a collective mode. This makes other types of laser probing schemes insensitive for collective excitations and therefore well suited for the detection of the superfluid order parameter. We show that for the special case when laser light is coupled between the two components of the Fermi gas, density response is always absent in a homogeneous system.

Condensed Matter::Quantum GasesPhysicsLinear densityCondensed Matter - Mesoscale and Nanoscale PhysicsCondensed Matter - SuperconductivityFOS: Physical sciencesEnergy–momentum relationLaserAtomic and Molecular Physics and Opticslaw.inventionSuperconductivity (cond-mat.supr-con)SuperfluiditylawMesoscale and Nanoscale Physics (cond-mat.mes-hall)QuasiparticleAtomic physicsFermi gasSpectroscopyExcitationPhysical Review A
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2021

Previously, rotons were observed in correlated quantum systems at low temperatures, including superfluid helium and Bose-Einstein condensates. Here, following a recent theoretical proposal, we repo...

Condensed Matter::Quantum GasesPhysicsMultidisciplinaryCondensed matter physicsCondensed Matter::OtherDispersion relationMetamaterialRotonQuantumSuperfluid helium-4Science Advances
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2021

The bosonic analogs of topological insulators have been proposed in numerous theoretical works, but their experimental realization is still very rare, especially for spin systems. Recently, two-dim...

Condensed Matter::Quantum GasesPhysicsMultidisciplinaryCondensed matter physicsMagnetismMagnon02 engineering and technology021001 nanoscience & nanotechnology01 natural sciences3. Good healthsymbols.namesakeFerromagnetismTopological insulator0103 physical sciencessymbolsCondensed Matter::Strongly Correlated Electronsvan der Waals force010306 general physics0210 nano-technologyRealization (systems)Spin-½Science Advances
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Quantum coherence and entanglement with ultracold atoms in optical lattices

2008

At nanokelvin temperatures, ultracold quantum gases can be stored in optical lattices, which are arrays of microscopic trapping potentials formed by laser light. Such large arrays of atoms provide opportunities for investigating quantum coherence and generating large-scale entanglement, ultimately leading to quantum information processing in these artificial crystal structures. These arrays can also function as versatile model systems for the study of strongly interacting many-body systems on a lattice.

Condensed Matter::Quantum GasesPhysicsMultidisciplinaryUltracold atomLattice (order)Quantum sensorQuantum entanglementQuantum informationQuantum imagingAtomic physicsQuantumCoherence (physics)Nature
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Slow-light soliton dynamics with relaxation

2007

We solved the problem of soliton dynamics in the presence of relaxation. We demonstrate that the spontaneous emission of atoms is strongly suppressed due to nonlinearity. The spatial shape of the soliton is well preserved.

Condensed Matter::Quantum GasesPhysicsNonlinear opticsSlow lightMolecular physicsNonlinear systemNonlinear Sciences::Exactly Solvable and Integrable SystemsQuantum mechanicsAtom opticsRelaxation (physics)Spontaneous emissionStimulated emissionSolitonNonlinear Sciences::Pattern Formation and Solitons2007 Quantum Electronics and Laser Science Conference
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Solitons and their observable signatures in quasi-one-dimensional systems

2005

We give an overview of the experimental signatures of nonlinear waves: notably topological and non topological solitons, in specific quasi-one-dimensional devices and condensed matter systems. Non topological solitons can be easily observed and manipulated, on a macroscopic scale, in optical fibers and electrical transmission lines. Topological solitons have been clearly identified as fluxons in Josephson transmission lines and as domain walls in condensed matter systems such as magnetic chains and synthetic polymers. By contrast, at the present time the observable signatures of nonlinear excitations such as pulse or envelope solitons and polarons, which are predicted to occur on a microsco…

Condensed Matter::Quantum GasesPhysicsNonlinear systemDomain wall (string theory)Condensed matter physicsMacroscopic scaleObservablePolaronNonlinear Sciences::Pattern Formation and SolitonsMicroscopic scaleEnvelope (waves)Pulse (physics)
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Turbulent Superfluid Profiles in a Counterflow Channel

2010

We have developed a two-dimensional model of quantised vortices in helium II moving under the influence of applied normal fluid and superfluid in a counterflow channel. We predict superfluid and vortex-line density profiles which could be experimentally tested using recently developed visualization techniques.

Condensed Matter::Quantum GasesPhysicsNormal fluidCondensed Matter::OtherTurbulenceFOS: Physical scienceschemistry.chemical_elementSuperfluid helium; Turbulence; VorticesVorticesMechanicsCondensed Matter PhysicsAtomic and Molecular Physics and OpticsVortexTurbulenceCondensed Matter - Other Condensed MatterSuperfluiditychemistryGeneral Materials ScienceSuperfluid heliumSettore MAT/07 - Fisica MatematicaHeliumOther Condensed Matter (cond-mat.other)Communication channelJournal of Low Temperature Physics
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Hartree-Fock-Bogoliubov theory of polarized Fermi systems

2008

Condensed Fermi systems with an odd number of particles can be described by means of polarizing external fields having a time-odd character. We illustrate how this works for Fermi gases and atomic nuclei treated by density functional theory or Hartree-Fock-Bogoliubov (HFB) theory. We discuss the method based on introducing two chemical potentials for different superfluid components, whereby one may change the particle-number parity of the underlying quasiparticle vacuum. Formally, this method is a variant of non-collective cranking, and the procedure is equivalent to the so-called blocking. We present and exemplify relations between the two-chemical-potential method and the cranking approxi…

Condensed Matter::Quantum GasesPhysicsNuclear TheoryCondensed Matter - SuperconductivityNuclear TheoryHartree–Fock methodFOS: Physical sciencesAtomic and Molecular Physics and OpticsSuperconductivity (cond-mat.supr-con)Nuclear Theory (nucl-th)SuperfluidityQuantum mechanicsQuantum electrodynamicsAtomic nucleusQuasiparticleParity (mathematics)Nuclear theoryFermi Gamma-ray Space TelescopePhysical Review A
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Ion traps in nuclear physics—Recent results and achievements

2016

Abstract Ion traps offer a way to determine nuclear binding energies through atomic mass measurements with a high accuracy and they are routinely used to provide isotopically or even isomerically pure beams of short-living ions for post-trap decay spectroscopy experiments. In this review, different ion-trapping techniques and progresses in recent nuclear physics experiments employing low-energy ion traps are discussed. The main focus in this review is on the benefit of recent high accuracy mass measurements to solve some key problems in physics related to nuclear structure, nuclear astrophysics as well as neutrinos. Also, several cases of decay spectroscopy experiments utilizing trap-purifi…

Condensed Matter::Quantum GasesPhysicsNuclear and High Energy Physics010308 nuclear & particles physicsBinding energyNuclear structure01 natural sciencesAtomic massIonNuclear physics0103 physical sciencesNuclear astrophysicsPhysics::Atomic PhysicsNeutrino010306 general physicsSpectroscopyProgress in Particle and Nuclear Physics
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