Search results for "Resistivity"

showing 10 items of 385 documents

Direct method for calculating temperature-dependent transport properties

2015

We show how temperature-induced disorder can be combined in a direct way with first-principles scattering theory to study diffusive transport in real materials. Excellent (good) agreement with experiment is found for the resistivity of Cu, Pd, Pt (and Fe) when lattice (and spin) disorder are calculated from first principles. For Fe, the agreement with experiment is limited by how well the magnetization (of itinerant ferromagnets) can be calculated as a function of temperature. By introducing a simple Debye-like model of spin disorder parameterized to reproduce the experimental magnetization, the temperature dependence of the average resistivity, the anisotropic magnetoresistance and the spi…

Condensed Matter - Materials ScienceMaterials scienceSpin polarizationMagnetoresistanceCondensed matter physicsCondensed Matter - Mesoscale and Nanoscale PhysicsDirect methodMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciencesCondensed Matter PhysicsElectronic Optical and Magnetic MaterialsAdiabatic theoremMagnetizationFerromagnetismElectrical resistivity and conductivityMesoscale and Nanoscale Physics (cond-mat.mes-hall)Scattering theory

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Electrical transport with temperature-induced spin disorder in NiMnSb

2019

Abstract We investigate theoretically the combined effect of phonons and magnons caused by finite temperatures on the electrical resistivity of nonstoichiometric half-Heusler NiMnSb alloy. The coherent potential approximation within the alloy analogy model is employed for an efficient treatment of chemical impurities, atomic displacements, and magnetic disorder. Spin fluctuations of local Mn moments are described by two models: (i) uncompensated disordered local moment approach and (ii) tilting of the moments. The calculated resistivity agrees with experimental data, the agreement is good up to 600 K. We show that a strong magnetic disorder leads to a violation of the Matthiessen’s rule for…

Condensed Matter::Materials ScienceMaterials scienceSpin polarizationCondensed matter physicsElectrical resistivity and conductivityPhononImpurityMagnonCoherent potential approximationCurie temperatureCondensed Matter PhysicsSpin (physics)Electronic Optical and Magnetic MaterialsJournal of Magnetism and Magnetic Materials

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Asymmetric Tunneling Conductance and the non-Fermi Liquid Behavior of Strongly Correlated Fermi Systems

2018

Tunneling differential conductivity (or resistivity) is a sensitive tool to experimentally test the nonFermi liquid behavior of strongly correlated Fermi systems. In the case of common metals the Landau– Fermi liquid theory demonstrates that the differential conductivity is a symmetric function of bias voltage V . This is because the particle-hole symmetry is conserved in the Landau–Fermi liquid state. When a strongly correlated Fermi system turns out to be near the topological fermion condensation quantum phase transition, its Landau–Fermi liquid properties disappear so that the particle-hole symmetry breaks making the differential tunneling conductivity to be asymmetric function of V . Th…

Condensed Matter::Quantum GasesPhysicsQuantum phase transitionSuperconductivityPhysics and Astronomy (miscellaneous)Condensed matter physicsmedia_common.quotation_subject02 engineering and technologyConductivity021001 nanoscience & nanotechnology01 natural sciencesAsymmetryElectrical resistivity and conductivity0103 physical sciencesCondensed Matter::Strongly Correlated ElectronsFermi liquid theory010306 general physics0210 nano-technologyPseudogapQuantum tunnellingmedia_commonJETP Letters

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FERMION CONDENSATION, T -LINEAR RESISTIVITY AND PLANCKIAN LIMIT

2019

We explain recent challenging experimental observations of universal scattering rate related to the linear-temperature resistivity exhibited by a large corps of both strongly correlated Fermi systems and conventional metals. We show that the observed scattering rate in strongly correlated Fermi systems like heavy fermion metals and high-$T_c$ superconductors stems from phonon contribution that induce the linear temperature dependence of a resistivity. The above phonons are formed by the presence of flat band, resulting from the topological fermion condensation quantum phase transition (FCQPT). We emphasize that so - called Planckian limit, widely used to explain the above universal scatteri…

Condensed Matter::Quantum GasesPhysicsSuperconductivityQuantum phase transitionQuantum PhysicsStrongly Correlated Electrons (cond-mat.str-el)Physics and Astronomy (miscellaneous)Condensed matter physicsSolid-state physicsPhononFOS: Physical sciencesFermion01 natural sciences010305 fluids & plasmasCondensed Matter - Strongly Correlated ElectronsElectrical resistivity and conductivityLattice (order)Scattering rate0103 physical sciencesCondensed Matter::Strongly Correlated ElectronsQuantum Physics (quant-ph)010306 general physicsПИСЬМА В ЖУРНАЛ ЭКСПЕРИМЕНТАЛЬНОЙ И ТЕОРЕТИЧЕСКОЙ ФИЗИКИ

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Flat Bands and Salient Experimental Features Supporting the Fermion Condensation Theory of Strongly Correlated Fermi

2020

The physics of strongly correlated Fermi systems, being the mainstream topic for more than half a century, still remains elusive. Recent advancements in experimental techniques permit to collect important data, which, in turn, allow us to make the conclusive statements about the underlying physics of strongly correlated Fermi systems. Such systems are close to a special quantum critical point represented by topological fermion-condensation quantum phase transition which separates normal Fermi liquid and that with a fermion condensate, forming flat bands. Our review paper considers recent exciting experimental observations of universal scattering rate related to linear temperature dependence…

Condensed Matter::Quantum GasesQuantum phase transitionSuperconductivityPhysicsNuclear and High Energy PhysicsCondensed matter physics010308 nuclear & particles physicsFermion01 natural sciencesAtomic and Molecular Physics and OpticsElectrical resistivity and conductivityQuantum critical pointScattering rate0103 physical sciencesFermi liquid theory010306 general physicsFermi Gamma-ray Space TelescopePhysics of Atomic Nuclei

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Effects of Conduction Band Structure and Dimensionality of the Electron Gas on Transport Properties of InSe under Pressure

1996

We report Hall effect and resistivity measurements in InSe under pressure. The electron concentration strongly decreases under pressure in samples exhibiting 3D transport behaviour. This is explained by the existence of an excited minimum in the conduction band moving to lower energies under pressure. The related impurity level traps electrons as it reaches the band gap and approaches the Fermi level. In samples exhibiting 2D behaviour the electron concentration remains constant. This behaviour, together with the pressure dependence of the Hall mobility, is consistent with a previous model which considers high mobility 3D electrons and low mobility 2D electrons to contribute to charge trans…

Condensed matter physicsChemistryBand gapFermi levelElectronCondensed Matter PhysicsElectronic Optical and Magnetic Materialssymbols.namesakeElectrical resistivity and conductivityHall effectExcited statesymbolsFermi gasQuasi Fermi levelphysica status solidi (b)

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Experimental and theoretical investigation of Cr1-xScxN solid solutions for thermoelectrics

2016

The ScN- and CrN-based transition-metal nitrides have recently emerged as a novel and unexpected class of materials for thermoelectrics. These materials constitute well-defined model systems for investigating mixing thermodynamics, phase stability, and band structure aiming for property tailoring. Here, we demonstrate an approach to tailor their thermoelectric properties by solid solutions. The trends in mixing thermodynamics and densities-of-states (DOS) of rocksalt-Cr1-xScxN solid solutions (0 ≤ x ≤ 1) are investigated by first-principles calculations, and Cr1-xScxN thin films are synthesized by magnetron sputtering. Pure CrN exhibits a high power factor, 1.7 × 10−3 W m−1 K−2 at 720 K, en…

Condensed matter physicsChemistryGeneral Physics and Astronomy02 engineering and technology021001 nanoscience & nanotechnologyThermoelectric materials01 natural sciencesDelocalized electronElectrical resistivity and conductivitySeebeck coefficient0103 physical sciencesThermoelectric effectThin film010306 general physics0210 nano-technologyElectronic band structureSolid solutionJournal of Applied Physics

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Magnetic and Electronic Properties ofRENiBi (RE = Pr, Sm, Gd-Tm, Lu) Compounds

2008

Resistivity and magnetic measurements were used to examine the ternary rare earth compounds RENiBi (RE = Pr, Sm, Gd-Tm, Lu). These compounds order antiferromagnetically with TN below 16 K (RE = Pr, Sm, Gd-Tm) or are paramagnetic (LuNiBi). For some of these compounds a metal–insulator transition was found. The metal–insulator transition temperature depends strongly on the preparation conditions. Both the magnetic ground states and the resistance behavior are in good agreement with electronic band structure calculations.

Condensed matter physicsChemistrybusiness.industryTransition temperatureInorganic ChemistryPR/SMParamagnetismCrystallographySemiconductorElectrical resistivity and conductivityElectronic band structurebusinessTernary operationElectronic propertiesZeitschrift für anorganische und allgemeine Chemie

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PEDOT:Poly(1-vinyl-3-ethylimidazolium) dispersions as alternative materials for optoelectronic devices

2008

Conductive polymerMaterials sciencePolymers and Plasticsbusiness.industryOrganic ChemistryElectroluminescencelaw.inventionPEDOT:PSSElectrical resistivity and conductivitylawMaterials ChemistryOLEDOptoelectronicsWettingbusinessLight-emitting diodeJournal of Polymer Science Part A: Polymer Chemistry

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Intrinsic electrical conductivity of nanostructured metal-organic polymer chains

2012

One-dimensional conductive polymers are attractive materials because of their potential in flexible and transparent electronics. Despite years of research, on the macro- and nano-scale, structural disorder represents the major hurdle in achieving high conductivities. Here we report measurements of highly ordered metal-organic nanoribbons, whose intrinsic (defect-free) conductivity is found to be 104 S m−1, three orders of magnitude higher than that of our macroscopic crystals. This magnitude is preserved for distances as large as 300 nm. Above this length, the presence of structural defects (~ 0.5%) gives rise to an inter-fibre-mediated charge transport similar to that of macroscopic crysta…

Conductive polymerMultidisciplinaryMaterials scienceOrders of magnitude (temperature)General Physics and AstronomyNanotechnologyGeneral ChemistryElectronic structureConductivityArticleGeneral Biochemistry Genetics and Molecular BiologyMetalMolecular wireGapless playbackChemical physicsElectrical resistivity and conductivityvisual_artvisual_art.visual_art_mediumNature Communications

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