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  • Articles  (1,112)
  • American Institute of Physics (AIP)  (1,112)
  • Institute of Physics
  • Low Temperature Physics  (980)
  • Journal of Physical and Chemical Reference Data  (132)
  • 6626
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  • 1
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    Effect of restricted geometry on the superconducting properties of low-melting metals (Review Article) (2016)
    American Institute of Physics (AIP)
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    Publication Date: 2016-12-08
    Description: This is a review of results from studies of the effect of artificially restricted geometry (the size effect) on the superconducting properties of nanoparticles of low-melting metals (Hg, Pb, Sn, In). Restricted geometrical conditions are created by embedding molten metals under high pressure into nanoporous matrices of two types: channel structures based on chrysotile asbestos and porous alkali-borosilicate glasses. Chrysotile asbestos is a system of parallel nanotubes with channel diameters ranging from 2 to 20 nm and an aspect ratio (channel length to diameter) of up to 10 7 . The glasses are a random dendritic three-dimensional system of interconnected channels with a technologically controllable mean diameter of 2–30 nm. Temperature dependences of the resistance and heat capacity in the region of the superconducting transition and the dependences of the critical temperature on the mean pore diameter are obtained. The critical magnetic fields are also determined.
    Print ISSN: 1063-777X
    Electronic ISSN: 1090-6517
    Topics: Physics
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    Metamorphoses of electronic structure of FeSe-based superconductors (Review Article) (2016)
    American Institute of Physics (AIP)
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    Publication Date: 2016-12-08
    Description: The electronic structure of FeSe, the simplest iron-based superconductor (Fe-SC), conceals a potential of dramatic increase of T c that realizes under pressure or in a single layer film. This is also the system where nematicity, the phenomenon of a keen current interest, is most easy to study since it is not accompanied by the antiferromagnetic transition like in all other Fe-SC's. Here we overview recent experimental data on electronic structure of FeSe-based superconductors: isovalently doped crystals, intercalates, and single layer films, trying to clarify its topology and possible relation of this topology to superconductivity. We argue that the marked differences between the experimental and calculated band structures for all FeSe compounds can be described by a hoping selective renormalization model for a spin/orbital correlated state that may naturally explain both the evolution of the band structure with temperature and nematicity.
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  • 3
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    “Break junction” technology in application to layered superconductors (Review Article) (2016)
    American Institute of Physics (AIP)
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    Publication Date: 2016-12-08
    Description: A comprehensive study of superconductor-constriction-superconductor contacts, obtained using the “break junction” technique in layered superconductors. Depending on the constriction transparency, tunneling and SnS-Andreev spectroscopies could be used to directly determine the values of the superconducting gaps, characteristic BCS ratios and temperature dependences of the gaps in cuprates, magnesium diboride and iron pnictides and chalcogenides. Based on these results we can estimate the gap anisotropy and the electron-boson coupling constants. The advantages and drawbacks of “break junction” technique are discussed, and we demonstrate that this method is powerful enough for the study of optical phonon modes in high-temperature superconducting cuprates and for creating contacts with selective transparency in Mg 1- x Al x B 2 compounds.
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  • 4
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    Metal-insulator transitions and magnetic susceptibility in doped cuprate compounds (2016)
    American Institute of Physics (AIP)
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    Publication Date: 2016-12-08
    Description: Results are presented from a theoretical study of the possibility of hole carrier localization and metal-insulator transitions which show up in the temperature dependences of the magnetic susceptibility χ( T ) of doped copper-oxide (cuprate) compounds. The criteria for metal-insulator transitions owing to strong hole-lattice interactions and the formation of very narrow polaron bands in these materials with reduced doping level x are analyzed. It is shown that these kinds of metal-insulator transitions occur in underdoped La 2- x Sr x CuO 4 and YBa 2 Cu 3 O 6+ x cuprates (i.e., for x ranging from 0.04 to 0.12). The characteristic temperature dependences χ( T ) of the HTSC cuprates are found for different doping levels. These results are in good agreement with experimental data on metal-insulator transitions and the magnetic susceptibility of the HTSC cuprates.
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  • 5
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    Low-energy spectra of differential conductivity and shot noise in tunnel junctions based on superconductors with suppression of the order parameter at the S-N interface (2016)
    American Institute of Physics (AIP)
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    Publication Date: 2016-12-08
    Description: The possibility of an anomalous structure in the differential conductivity of tunnel junctions based on high-temperature superconductors as a result of degradation of their surface layer is analyzed. This feature is in the form of two peaks near an energy gap separated by a region of suppressed conductivity. One peak is usually high and sharp, while the other is much more spread out. Differential conductivity and shot noise spectra in contacts of a normal injector with s - and d -type superconductors are calculated and compared. It is shown that combined measurements of these two characteristics can provide new information on the kinetics of transport processes in these structures.
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  • 6
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    Dynamical quantum phase transitions (Review Article) (2016)
    American Institute of Physics (AIP)
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    Publication Date: 2016-12-08
    Description: During recent years the interest to dynamics of quantum systems has grown considerably. Quantum many body systems out of equilibrium often manifest behavior, different from the one predicted by standard statistical mechanics and thermodynamics in equilibrium. Since the dynamics of a many-body quantum system typically involve many excited eigenstates, with a non-thermal distribution, the time evolution of such a system provides an unique way for investigation of non-equilibrium quantum statistical mechanics. Last decade such new subjects like quantum quenches, thermalization, pre-thermalization, equilibration, generalized Gibbs ensemble, etc. are among the most attractive topics of investigation in modern quantum physics. One of the most interesting themes in the study of dynamics of quantum many-body systems out of equilibrium is connected with the recently proposed important concept of dynamical quantum phase transitions. During the last few years a great progress has been achieved in studying of those singularities in the time dependence of characteristics of quantum mechanical systems, in particular, in understanding how the quantum critical points of equilibrium thermodynamics affect their dynamical properties. Dynamical quantum phase transitions reveal universality, scaling, connection to the topology, and many other interesting features. Here we review the recent achievements of this quickly developing part of low-temperature quantum physics. The study of dynamical quantum phase transitions is especially important in context of their connection to the problem of the modern theory of quantum information, where namely non-equilibrium dynamics of many-body quantum system plays the major role.
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  • 7
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    Electron dynamics in the normal state of cuprates: Spectral function, Fermi surface and ARPES data (2016)
    American Institute of Physics (AIP)
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    Publication Date: 2016-12-08
    Description: An influence of the electron-phonon interaction on excitation spectrum and damping in a narrow band electron subsystem of cuprates has been investigated. Within the framework of the t-J model an approach to solving a problem of account of both strong electron correlations and local electron–phonon binding with characteristic Einstein mode ω 0 in the normal state has been presented. In approximation Hubbard-I it was found an exact solution for the polaron bands. We established that in the low-dimensional system with a pure kinematic part of Hamiltonian a complicated excitation spectrum is realized. It is determined mainly by peculiarities of the lattice Green's function. In the definite area of the electron concentration and hopping integrals a correlation gap may be possible on the Fermi level. Also, in specific cases it is observed a doping evolution of the Fermi surface. We found that the strong electron–phonon binding enforces a degree of coherence of electron-polaron excitations near the Fermi level and spectrum along the nodal direction depends on wave vector module weakly. It corresponds to ARPES data. A possible origin of the experimentally observed kink in the nodal direction of cuprates is explained by fine structure of the polaron band to be formed near the mode −ω 0 .
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  • 8
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    Kinetic phenomena in organic conductors in high magnetic fields (Review Article) (2016)
    American Institute of Physics (AIP)
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    Publication Date: 2016-12-08
    Description: A review of experimental and theoretical studies of transport phenomena in strongly anisotropic organic conductors is presented. Considerable attention is paid to the phenomena that are specific to quasi-2D and quasi-1D conductive structures and have no analogues both in ordinary metals and in truly 2D or 1D conducting systems. Angular magnetoresistance oscillations, de Haas–van Alphen and Shubnikov–de Haas phenomena, high-temperature quantum oscillations of the magnetoresistance, and high-frequency resonances, including those arising due to the motion of electrons open trajectories, are discussed. The resonant angular oscillations of high-frequency conductivity and weakly damped electromagnetic waves in quasi-2D organic conductors under strong spatial dispersion are considered.
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  • 9
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    New Formulation for the Viscosity of Propane (2016)
    American Institute of Physics (AIP)
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    Publication Date: 2016-12-07
    Description: A new viscosity formulation for propane, using the reference equation of state for its thermodynamic properties by Lemmon et al. [J. Chem. Eng. Data 54 , 3141 (2009)] and valid in the fluid region from the triple-point temperature to 650 K and pressures up to 100 MPa, is presented. At the beginning, a zero-density contribution and one for the critical enhancement, each based on the experimental data, were independently generated in parts. The higher-density contributions are correlated as a function of the reciprocal reduced temperature τ = T c / T and of the reduced density δ = ρ / ρ c ( T c —critical temperature, ρ c —critical density). The final formulation includes 17 coefficients inferred by applying a state-of-the-art linear optimization algorithm. The evaluation and choice of the primary data sets are detailed due to its importance. The viscosity at low pressures p ≤ 0.2 MPa is represented with an expanded uncertainty of 0.5% (coverage factor k = 2) for temperatures 273 ≤ T /K ≤ 625. The expanded uncertainty in the vapor phase at subcritical temperatures T ≥ 273 K as well as in the supercritical thermodynamic region T ≤ 423 K at pressures p ≤ 30 MPa is assumed to be 1.5%. In the near-critical region (1.001 〈 1/ τ 〈 1.010 and 0.8 〈 δ 〈 1.2), the expanded uncertainty increases with decreasing temperature up to 3.0%. It is further increased to 4.0% in regions of less reliable primary data sets and to 6.0% in ranges in which no primary data are available but the equation of state is valid. Tables of viscosity computed for the new formulation are given in an Appendix for the single-phase region, for the vapor–liquid phase boundary, and for the near-critical region.
    Print ISSN: 0047-2689
    Electronic ISSN: 1529-7845
    Topics: Chemistry and Pharmacology , Physics
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  • 10
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    CODATA Recommended Values of the Fundamental Physical Constants: 2014* (2016)
    American Institute of Physics (AIP)
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    Publication Date: 2016-11-23
    Description: This paper gives the 2014 self-consistent set of values of the constants and conversion factors of physics and chemistry recommended by the Committee on Data for Science and Technology (CODATA). These values are based on a least-squares adjustment that takes into account all data available up to 31 December 2014. Details of the data selection and methodology of the adjustment are described. The recommended values may also be found at http://physics.nist.gov/constants .
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    Topics: Chemistry and Pharmacology , Physics
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