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Livres sur le sujet « Anisotropic energy »

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Auteur : Grafiati
Publié le 18 mai 2024

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1

J, Eggleston J., Voorhees P. W et National Institute of Standards and Technology (U.S.), dir. A phase-field model for high anisotropic interfacial energy. [Gaithersburg, MD] : U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 2001.

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2

J, Eggleston J., Voorhees P. W et National Institute of Standards and Technology (U.S.), dir. A phase-field model for high anisotropic interfacial energy. [Gaithersburg, MD] : U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 2001.

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3

J, Eggleston J., Voorhees P. W. 1955- et National Institute of Standards and Technology (U.S.), dir. A phase-field model for high anisotropic interfacial energy. [Gaithersburg, MD] : U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 2001.

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4

J, Eggleston J., Voorhees P. W. 1955- et National Institute of Standards and Technology (U.S.), dir. A phase-field model for high anisotropic interfacial energy. [Gaithersburg, MD] : U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 2001.

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5

B, McFadden Geoffrey, et National Institute of Standards and Technology (U.S.), dir. The effect of anisotropic surface energy on the Rayleigh instability. [Gaithersburg, Md.] : U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 2002.

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6

B, McFadden Geoffrey, et National Institute of Standards and Technology (U.S.), dir. The effect of anisotropic surface energy on the Rayleigh instability. [Gaithersburg, Md.] : U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 2002.

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7

K, Yeung P., Brasseur James G et Institute for Computer Applications in Science and Engineering., dir. Scale disparity and spectral transfer in anisotropic numerical turbulence. Hampton, VA : Institute for Computer Applications in Science and Engineering, NASA Langley Research Center, 1994.

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8

H, Tipping R., et United States. National Aeronautics and Space Administration., dir. Extension of the quasistatic far-wing line shape theory to multicomponent anisotropic potentials. [Washington, D.C : National Aeronautics and Space Administration, 1994.

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9

Hybrid anisotropic materials for wind power turbine blades. Boca Raton, Fla : CRC Press, 2012.

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10

M, Arnold Steven, et United States. National Aeronautics and Space Administration., dir. Driving force analysis in an infinite anisotropic plate with multiple crack interactions. [Washington, DC] : National Aeronautics and Space Administration, 1995.

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11

National Institute of Standards and Technology (U.S.), dir. A PHASE-FIELD MODEL FOR HIGH ANISOTROPIC INTERFACIAL ENERGY... NISTIR 6706... U.S. DEPARTMENT OF COMMERCE. [S.l : s.n., 2001.

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12

V, Ramamurthy, et Schanze Kirk S, dir. Photochemistry of organic molecules in isotropic and anisotropic media. New York : Marcel Dekker, 2003.

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13

Ross, Ron S. Planning minimum-energy paths in an off-road environment with anisotropic traversal costs and motion constraints. Monterey, Calif : Naval Postgraduate School, 1989.

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14

Walker, Fillius, et United States. National Aeronautics and Space Administration, dir. Gradients and anisotropies of high energy cosmic rays in the outer heliosphere. [Washington, DC : National Aeronautics and Space Administration, 1985.

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15

Ye, Zhou, et Institute for Computer Applications in Science and Engineering., dir. Numerical study of rotating turbulence with external forcing. Hampton, VA : Institute for Computer Applications in Science and Engineering, NASA Langley Research Center, 1998.

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16

A phase-field model for high anisotropic interfacial energy. [Gaithersburg, MD] : U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 2001.

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17

A phase-field model for high anisotropic interfacial energy. [Gaithersburg, MD] : U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 2001.

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18

Golfman, Yosif. Hybrid Anisotropic Materials for Wind Power Turbine Blades. Taylor & Francis Group, 2016.

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19

Golfman, Yosif. Hybrid Anisotropic Materials for Wind Power Turbine Blades. Taylor & Francis Group, 2016.

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20

Golfman, Yosif. Hybrid Anisotropic Materials for Wind Power Turbine Blades. Taylor & Francis Group, 2012.

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21

Golfman, Yosif. Hybrid Anisotropic Materials for Wind Power Turbine Blades. Taylor & Francis Group, 2018.

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22

Ramamurthy, V., et Kirk S. Schanze. Photochemistry of Organic Molecules in Isotropic and Anisotropic Media. Taylor & Francis Group, 2003.

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23

Ramamurthy, V., et Kirk S. Schanze. Photochemistry of Organic Molecules in Isotropic and Anisotropic Media. Taylor & Francis Group, 2003.

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24

Ramamurthy, V., et Kirk S. Schanze. Photochemistry of Organic Molecules in Isotropic and Anisotropic Media. Taylor & Francis Group, 2019.

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25

Ramamurthy, V., et Kirk S. Schanze. Photochemistry of Organic Molecules in Isotropic and Anisotropic Media. Taylor & Francis Group, 2003.

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26

Ramamurthy, V., et Kirk S. Schanze. Photochemistry of Organic Molecules in Isotropic and Anisotropic Media. Taylor & Francis Group, 2003.

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27

Ramamurthy, V., et Kirk S. Schanze. Photochemistry of Organic Molecules in Isotropic and Anisotropic Media. Taylor & Francis Group, 2003.

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28

Boudreau, Joseph F., et Eric S. Swanson. Quantum spin systems. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198708636.003.0022.

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The quantum mechanical underpinnings of magnetism are explored via the Heisenberg model of antiferromagnetism. The Lanczos algorithm is developed and applied to obtain ground state properties of the anisotropic antiferromagnetic Heisenberg spin chain. In particular, the phase diagram for the system magnetization is determined. A quantum Monte Carlo method that is appropriate for discrete systems is also presented. The method leverages the similarity between the Schrödinger equation and the diffusion equation to compute energy levels. The formalism necessary to compute ground state matrix elements is also developed. Finally, the method is tested with an application to the spin chain.
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29

Glazov, M. M. Spin Resonance. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198807308.003.0003.

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This chapter is devoted to one of key phenomena in the field of spin physics, namely, resonant absorption of electromagnetic waves under conditions where the Zeeman splitting of spin levels in magnetic field is equal to photon energy. This method is particularly important for identification of nuclear spin effects, because resonance spectra provide fingerprints of different involved spin species and make it possible to distinguish different nuclear isotopes. As discussed in this chapter the nuclear magnetic resonance provides also an access to local magnetic fields acting on nuclear spins. These fields are caused by the magnetic interactions between the nuclei and by the quadrupole splittings of nuclear spin states in anisotropic crystalline environment. Manifestations of spin resonance in optical responses of semiconductors–that is, optically detected magnetic resonance–are discussed.
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30

Gradients and anisotropies of high energy cosmic rays in the outer heliosphere. [Washington, DC : National Aeronautics and Space Administration, 1985.

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31

Vigdor, Steven E. Expansion Everlasting. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198814825.003.0005.

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Chapter 5 presents experiments illuminating the cosmological evolution of the universe and its energy budget, accounting for its longevity. The observations establishing the Hubble’s Law linear relationship between intergalactic distances and recession speeds, and their interpretation in terms of the expansion of cosmic space, are reviewed. The evidence for big bang cosmology from nucleosynthesis and the cosmic microwave background (CMB) is presented. The measurements that establish the ongoing acceleration of the cosmic expansion are reviewed: distant supernova recession speeds, tiny CMB anisotropies, baryon acoustic oscillations, and gravitational lensing. Excellent model fits to these data, assuming general relativity, cold dark matter, and a cosmological constant, lead to precise determinations of both the age of the universe and the energy budget of the universe. The cosmic history of the expansion rate and the energy budget are inferred, along with the remarkable flatness of cosmic space within the observable portion of the universe.
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32

Delgado Martín, Jordi, Andrea Muñoz-Ibáñez et Ismael Himar Falcón-Suárez. 6th International Workshop on Rock Physics : A Coruña, Spain 13 -17 June 2022 : Book of Abstracts. 2022e éd. Servizo de Publicacións da UDC, 2022. http://dx.doi.org/10.17979/spudc.000005.

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[Abstract] The 6th International Workshop on Rock Physics (6IWRP) was held A Coruña, Spain, between 13th and 17th of June, 2022. This meeting follows the track of the five successful encounters held in Golden (USA, 2011), Southampton (UK, 2013), Perth (Australia, 2015), Trondheim (Norway, 2017) and Hong Kong (China, 2019). The aim of the workshop was to bring together experiences allowing to illustrate, discuss and exchange recent advances in the wide realm of rock physics, including theoretical developments, in situ and laboratory scale experiments as well as digital analysis. While rock physics is at the core of the oil & gas industry applications, it is also essential to enable the energy transition challenge (e.g. CO2 and H2 storage, geothermal), ensure a safe and adequate use of natural resources and develop efficient waste management strategies. The topics of 6IWRP covered a broad spectrum of rock physics-related research activities, including: • Experimental rock physics. New techniques, approaches and applications; Characterization of the static and dynamic properties of rocks and fluids; Multiphysics measurements (NMR, electrical resistivity…); Deep/crustal scale rock physics. • Modelling and multiscale applications: from the lab to the field. Numerical analysis and model development; Data science applications; Upscaling; Microseismicity and earthquakes; Subsurface stresses and tectonic deformations. • Coupled phenomena and rock properties: exploring interactions. Anisotropy; Flow and fractures; Temperature effects; Rock-fluid interaction; Fluid and pressure effects on geophysical signatures. • The energy transition challenge. Applications to energy storage (hydrogen storage in porous media), geothermal resources, energy production (gas hydrates), geological utilization and storage of CO2, nuclear waste disposal. • Rock physics templates: advances and applications. Quantitative assessment; Applications to reser voir characterization (role of seismic wave anisotropy and fracture networks). • Advanced rock physics tools. Machine learning; application of imaging (X-ray CT, X-ray μCT, FIB-SEM…) to obtain rock proper ties. This book compiles more than 50 abstracts, summarizing the works presented in the 6IWRP by rock physicists from all over the world, belonging to both academia and industry. This book means an updated overview of the rock physics research worldwide.
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33

Zhang, H. Mesoscopic Structures and Their Effects on High-Tc Superconductivity. Sous la direction de A. V. Narlikar. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780198738169.013.12.

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This article presents the results of model calculations carried out to determine the mesoscopic structural features of high-temperature superconducting (HTS) crystal structures, and especially their characteristic high critical temperature (Tc) and anisotropy. The crystal structure of high-temperature superconductors (HTSc) is unique in having some mesoscopic features. For example, the structures of a majority of cuprite superconductors are comprised of two structural blocks, perovskite and rock salt, stacked along the c-direction. This article calculates the interaction between the perovskite and rock salt blocks in the form of combinative energy in order to elucidate the effects of mesoscopic structures on high-Tc superconductivity. Both X-ray diffraction and Raman spectroscopy show that a ‘fixed triangle’ exists in the samples under investigation. The article also examines the importance of electron–phonon coupling in high-Tc superconductors.
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34

Numerical study of rotating turbulence with external forcing. Hampton, VA : Institute for Computer Applications in Science and Engineering, NASA Langley Research Center, 1998.

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35

Launay, Jean-Pierre, et Michel Verdaguer. Electrons in Molecules. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198814597.001.0001.

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The book treats in a unified way electronic properties of molecules (magnetic, electrical, photophysical), culminating with the mastering of electrons, i.e. molecular electronics and spintronics and molecular machines. Chapter 1 recalls basic concepts. Chapter 2 describes the magnetic properties due to localized electrons. This includes phenomena such as spin cross-over, exchange interaction from dihydrogen to extended molecular magnetic systems, and magnetic anisotropy with single-molecule magnets. Chapter 3 is devoted to the electrical properties due to moving electrons. One considers first electron transfer in discrete molecular systems, in particular in mixed valence compounds. Then, extended molecular solids, in particular molecular conductors, are described by band theory. Special attention is paid to structural distortions (Peierls instability) and interelectronic repulsions in narrow-band systems. Chapter 4 treats photophysical properties, mainly electron transfer in the excited state and its applications to photodiodes, organic light emitting diodes, photovoltaic cells and water photolysis. Energy transfer is also treated. Photomagnetism (how a photonic excitation modifies magnetic properties) is introduced. Finally, Chapter 5 combines the previous knowledge for three advanced subjects: first molecular electronics in its hybrid form (molecules connected to electrodes acting as wires, diodes, memory elements, field-effect transistors) or in the quantum computation approach. Then, molecular spintronics, using, besides the charge, the spin of the electron. Finally the theme of molecular machines is presented, with the problem of the directionality control of their motion.
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