Search results for "Absolute zero"

showing 5 items of 5 documents

1988

Monte Carlo simulations are presented for binary (AB) symmetric polymer mixtures (chain lengths NANBN) for the case that an attractive interaction ϵ exists between monomers of the same kind, and the limiting case that one species (B) is very diluted. It is shown that with increasing interaction strength ϵ/(kB · T), T being the absolute temperature, the minority chains collapse to a very dense configuration, while the majority chains stay nearly Gaussian. Both chain radii, structure factors and numbers of nearest neighbour contacts are discussed.

chemistry.chemical_classificationGaussianMonte Carlo methodPolymersymbols.namesakechemistry.chemical_compoundMonomerchemistryChain (algebraic topology)Polymer chemistrysymbolsRadius of gyrationStructure factorAbsolute zeroDie Makromolekulare Chemie
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Nonlinear extended thermodynamics of a dilute nonviscous gas

2002

This paper deals with further developments of a nonlinear theory for a nonviscous gas in the presence of heat flux, which has been proposed in previous papers, using extended thermodynamics. The fundamental fields used are the density, the velocity, the internal energy density, and the heat flux. Using the Liu procedure, the constitutive theory is built up without approximations and the consistence of the model is showed: it is shown that the model is determined by the choice of three scalar functions which must satisfy a system of partial differential equations, which always has solutions. Different changes of field variables are carried out, using different Legendre transformations, passi…

Entropy (classical thermodynamics)Partial differential equationInternal energyHeat fluxModeling and SimulationModelling and SimulationNon-equilibrium thermodynamicsThermodynamicsThermodynamic temperatureExtended irreversible thermodynamicsAbsolute zeroMathematicsComputer Science ApplicationsMathematical and Computer Modelling
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Thermodynamics of the two-dimensional Heisenberg classical honeycomb lattice

1998

In this article we adapt a previous work concerning the two-dimensional (2D) Heisenberg classical square lattice [Physica B 245, 263 (1998)] to the case of a honeycomb lattice. Closed-form expressions of the main thermodynamic functions of interest are derived in the zero-field limit. Notably, near absolute zero (i.e., the critical temperature), we derive the values of the critical exponents $\ensuremath{\alpha}=0,\ensuremath{\eta}=\ensuremath{-}1,\ensuremath{\gamma}=3,$ and $\ensuremath{\nu}=1,$ as for the square lattice, thus proving their universal character. A very simple model allows one to give a good description of the low-temperature behaviors of the product $\ensuremath{\chi}T.$ Fo…

Physics[PHYS]Physics [physics]010405 organic chemistryHeisenberg modelThermodynamics010402 general chemistryClassical XY model01 natural sciencesSquare lattice0104 chemical sciencesLattice (order)AntiferromagnetismCritical exponentAbsolute zeroLattice model (physics)ComputingMilieux_MISCELLANEOUS
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1D antiferromagnetism in spin‐alternating bimetallic chains

1990

The magnetic and thermal properties of the ordered bimetallic chain CoNi(EDTA)⋅6H2O in the very low‐temperature range are reported. The magnetic behavior does not exhibit the characteristic features of 1D ferrimagnets, but a continuous decrease of χmT towards zero at absolute zero. This 1D antiferromagnetic behavior results from an accidental compensation between the moments located at the two sublattices. This behavior, as well as the specific‐heat results, are modeled on the basis of an Ising‐exchange model that considers both alternating spins and Landé factors, and a zero‐field splitting on the Ni site. Eugenio.Coronado@uv.es ; Fernando.Sapina@uv.es

Magnetic PropertiesEdtaExchange InteractionsGeneral Physics and AstronomyNickel CompoundsCobalt Compounds ; Nickel Compounds ; Edta ; Hydrates ; Magnetic Properties ; One−Dimensional Systems ; Ultralow Temperature ; Antiferromagnetism ; Magnetic Moments ; Exchange Interactions ; Ising Model ; Anisotropy ; Specific HeatMagnetic MomentsAntiferromagnetism:FÍSICA [UNESCO]AntiferromagnetismHydratesAnisotropyBimetallic stripAbsolute zeroSpin-½Condensed matter physicsMagnetic momentSpinsChemistryUNESCO::FÍSICAOne−Dimensional SystemsUltralow TemperatureSpecific HeatIsing ModelAnisotropyCondensed Matter::Strongly Correlated ElectronsIsing modelCobalt Compounds
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Size Dependent Breakdown of Superconductivity in Ultranarrow Nanowires

2005

Below a certain temperature Tc (typically cryogenic), some materials lose their electric resistance R entering a superconducting state. Folowing the general trend toward a large scale integration of a greater number of electronic components, it is desirable to use superconducting elements in order to minimize heat dissipation. It is expected that the basic property of a superconductor, i.e. dissipationless electric current, will be preserved at reduced scales required by modern nanoelectronics. Unfortunately, there are indications that for a certain critical size limit of the order of 10 nm, below which a "superconducting" wire is no longer a superconductor in a sense that it acquires a fin…

Hot TemperatureMaterials scienceNanowireFOS: Physical sciencesBioengineeringSuperconductivity (cond-mat.supr-con)Physical PhenomenaElectricityElectrical resistance and conductanceCondensed Matter::SuperconductivityElectric ImpedanceNanotechnologyGeneral Materials ScienceAbsolute zeroSuperconductivityCondensed matter physicsCondensed Matter - SuperconductivityPhysicsMechanical EngineeringElectric ConductivityTemperatureGeneral ChemistrySense (electronics)Condensed Matter PhysicsNanoelectronicsvisual_artElectronic componentvisual_art.visual_art_mediumElectronicsElectric currentAluminumNano Letters
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